Some background:

The VF-1 was developed by Stonewell/Bellcom/Shinnakasu for the U.N. Spacy by using alien Overtechnology obtained from the SDF-1 Macross alien spaceship. Its production was preceded by an aerodynamic proving version of its airframe, the VF-X. Unlike all later VF vehicles, the VF-X (sometimes referred to as VF-X1) was strictly a conventional/non-transformable jet aircraft, even though it incorporated many structural components and several key technologies that were vital for the transformable VF-1’s successful development that ran in parallel. Therefore, the VF-X was never intended as an air superiority fighter, but rather a flight-capable analogue test bed and proof of concept for the VF-1’s basic layout and major components. In this role, however, the VF-X made vital contributions to systems’ development that were later incorporated into the VF-1’s serial production and sped the program up considerably.

 

VF-X production started in early 2006, with four airframes built. The flight tests began in February 2007. The first prototype (“01”) was piloted and evaluated by ace pilot Roy Fokker, in order to explore the aircraft’s flight envelope, general handling and for external stores carriage tests. The three other VF-Xs successively joined the test program, each with a different focus. “02” was primarily tasked with the flight control and pilot interface program, “03” was allocated to the engine, vectoring thrust and steering systems development, and “04” was primarily involved in structural and fatigue tests.

 

In November 2007, the successful VF-X tests and the flights of the VF-X-1 (the first fully transformable VF-1 prototype, which had been under construction in parallel to the VF-X program) led to formal adoption of the “Valkyrie” variable fighter by the United Nations Government.

The space-capable VF-1's combat debut was on February 7, 2009, during the Battle of South Ataria Island - the first battle of Space War I - and remained the mainstay fighter of the U.N. Spacy for the entire conflict.

 

Introduced in 2008, the VF-1 proved to be an extremely capable craft, successfully combating a variety of Zentraedi mecha, even in most sorties which saw UN Spacy forces significantly outnumbered. The versatility of the Valkyrie design enabled the variable fighter to act as both large-scale infantry and as air/space superiority fighter. The signature skills of U.N. Spacy ace pilot Maximilian Jenius exemplified the effectiveness of the variable systems as he near-constantly transformed the Valkyrie in battle to seize advantages of each mode as combat conditions changed from moment to moment.

 

The basic VF-1 was deployed in four sub-variants (designated A, D, J, and S) and its success was increased by continued development of various enhancements. These included the GBP-1S "Armored Valkyrie” external armor and infantry weapons pack, so-called FAST Packs for "Super Valkyries” for orbital use, and the additional RÖ-X2 heavy cannon pack weapon system for the VF-1S “Strike Valkyrie” with additional firepower.

 

After the end of Space War I, the VF-1 continued to be manufactured both in the Sol system and throughout the UNG space colonies. Although the VF-1 would eventually be replaced as the primary Variable Fighter of the U.N. Spacy by the more capable, but also much bigger, VF-4 Lightning III in 2020, a long service record and continued production after the war proved the lasting worth of the design.

 

The VF-1 was without doubt the most recognizable variable fighter of Space War I and was seen as a vibrant symbol of the U.N. Spacy even into the first year of the New Era 0001 in 2013. At the end of 2015 the final rollout of the VF-1 was celebrated at a special ceremony, commemorating this most famous of variable fighters. The VF-1 Valkryie was built from 2006 to 2013 with a total production of 5,459 VF-1 variable fighters with several variants (VF-1A = 5,093, VF-1D = 85, VF-1J = 49, VF-1S = 30, VF-1G = 12, VE-1 = 122, VT-1 = 68), and several upgrade programs were introduced.

The fighter remained active in many second line units and continued to show its worthiness years later, e. g. through Milia Jenius who would use her old VF-1 fighter in defense of the colonization fleet - 35 years after the type's service introduction.

  

General characteristics:

Accommodation: One pilot in a Marty & Beck Mk-7 zero/zero ejection seat

Length 14.23 meters

Wingspan 14.78 meters (at 20° minimum sweep)

Height 3.84 meters

Empty weight: 13.25 metric tons

Standard T-O mass: 18.5 metric tons

 

Power Plant:

2x Shinnakasu Heavy Industry/P&W/Roice FF-2001 thermonuclear reaction turbine engines, output 650 MW each, rated at 11,500 kg in standard or in overboost (225.63 kN x 2)

4 x Shinnakasu Heavy Industry NBS-1 high-thrust vernier thrusters (1 x counter reverse vernier thruster nozzle mounted on the side of each leg nacelle/air intake, 1 x wing thruster roll control system on each wingtip);

 

Performance:

Top speed: Mach 2.71 at 10,000 m; Mach 3.87 at 30,000+ m

Thrust-to-weight ratio: empty 3.47; standard T-O 2.49; maximum T-O 1.24

 

Armament:

None installed, but the VF-X had 4x underwing hard points for a wide variety of ordnance, plus a ventral hardpoint for a Howard GU-11 55 mm three-barrel Gatling gun pod with 200 RPG, fired at 1,200 rds/min or other stores like test instruments

  

The model and its assembly:

Another submission to the “Prototypes” group build at whatifmodelers.com in July 2020. Being a VF-1 fan (and have built maybe twenty o these simple Arii kits), adding a VF-X was, more or less, a must – even more so because I had a suitable Valkyrie Fighter kit at hand for the conversion. As a side note, I have actually built something quite similar from a VF-1D many years ago: a fictional, non-transformable advanced trainer, without knowing about the VF-X at all.

 

Thanks to the “Macross - Perfect Memory” source book, the differences between the transformable VF-1 and its early testbed were easy to identify:

- Fixed legs with faired ducts from the intakes on (thighs)

- Ankle recesses disappeared

- Less and slightly different panel lines on the back and on the nose

- ventral head unit deleted and a respective fairing installed instead

- Levelled underside (shoulder fairings of the folded arms were cut down)

- Leg attachment points on the nose deleted

- No small, circular vernier thrusters all around the hull

- Some new/different venting grills (created mostly with 0.5mm black decal stripes)

 

Beyond the changes, the VF-1A was basically built OOB. Thankfully, the VF-X already features the later VF-1’s vectored thrust nozzles/feet, so that no changes had to be made in this respect. A pilot figure was added to the cockpit for the beauty pics, and after the flight scenes had been shot, the canopy remained open on a swing arm for static display. For the same reason, the model was built with the landing gear extended.

 

As a test aircraft, the underwing pylons and their AMM-1 ordnance were left away and the attachment points hidden with putty. I also omitted the ventral gun pod and left the aircraft clean. However, for the flight scene pictures, I implanted an adapter for a display holder made from wire.

 

In order to emphasize the test vehicle character of the VF-X, I gave the model a scratched spin recovery parachute installation between the fins, using a real world F-22 testbed as benchmark. It consists of styrene profiles, quite a delicate construction. For the same reason I gave the VF-X a long sensor boom on the nose, which changes the Valkyrie’s look, too. Finally, some small blade antennae were added to the nose and to the spine behind the cockpit.

  

Painting and markings:

To be honest, I have no idea if there was only a single VF-X prototype in the Macross universe, or more. Just one appears in the TV series in episode #33, and lack of suitable information and my personal lack of Japanese language proficiency prevents any deeper research. However, this would not keep me from inventing a personal interpretation of the canonical VF-X, especially because I do not really like the original livery from the TV series: an overall light grey with some simple black trim and “TEST” written on the (fixed) legs. Yamato did an 1:60 scale toy of the VF-X, but it was/is just a VF-1 with a ventral fairing; they added some shading to the basic grey – but this does not make the aircraft more attractive, IMHO.

 

When I looked at the original conceptual drawing of the VF-X in the “Macross - Perfect Memory” source book, however, I was immediately reminded of the F-15 prototypes from the Seventies (and this program used a total of twelve machines!). These featured originally a light grey (FS 36375?) overall base, to which bright dayglo orange markings on wings, fins and fuselage were soon added – in a very similar pattern to the VF-X. I think the VF-X livery was actually inspired by this, the time frame matches well with the production of the Macross TV series, too, and that’s what I adapted for my model.

In order to come close to the F-15 prototype livery, I gave “my” VF-X an overall basic coat of RAL 7047 “Telegrau 4”, one of German Telekom’s corporate colors and a very pale grey that can easily be mistaken for white when you do not have a contrast reference.

 

The cockpit received a medium grey finish, the ejection seat became black with brown cushions; the pilot figure is a 1:100 seated passenger from an architecture supplies, painted like an early VF-1 pilot in a white/blue suit. The jet nozzles/feet were painted with Revell 91 (Iron) and later treated with grinded graphite for a more metallic finish. The landing gear became classic white (I used Revell 301, which is a very pure tone, as contrast to the RAL 7047 on the hull), the air intake ducts and the internal sections of the VG wings were painted with dark grey (Revell 77).

 

For some diversity I took inspiration from the Yamato VF-X toy and added slightly darker (Humbrol 166, RAF Light Aircraft Grey) areas to the hull and the legs. Next, the panel lines were emphasized through a thinned black ink wash, but I did no panel post shading so that the VF-X would not look too dirty or worn.

 

Onto this basis I applied the orange dayglo markings. On the wings and fins, these were painted – they were applied with spray paint from a rattle can, involving lots of masking. The leading edges on wings and fins were created with grey decal sheet material, too. At this stage, some surface details and more fake panel lines were added with a soft pencil.

The orange cheatline under the cockpit is a personal addition; I found that some more orange had to be added to the nose for visual balance, and I eventually went for the simple, trimmed stripe (TL Modellbau material) instead of trying to apply decal sheet material around the jagged air intakes (F-15 prototype style). The black “TEST”, “VFX” and “U.N. Spacy” markings were designed at the computer and printed on clear inkjet decal paper. Even though the “real” VF-X does not feature the UNS “kite” insignia, I decided to add them to the model. These come from the OOB sheet, which also provided most (slightly yellowed) stencils.

Finally, the model was sealed with a coat of matt acrylic varnish (Italeri).

  

A rather different VF-1 project (and it is – to my astonishment – #28 in my 1:100 VF-1 Fighter mode collection!!!), with more changes to the basic model kit than one might expect at first sight. VF-X and VF-1 differ considerably from each other, despite identical outlines! However, I like the outcome, and I think that going a different route from the canonical grey/black livery paid out, the bright orange markings really make this VF-X stand out, and it looks IMHO more like a testbed than the “real” aircraft from the TV series.

+++ DISCLAIMER +++

Nothing you see here is real, even though the conversion or the presented background story might be based on historical facts. BEWARE!

  

Some background:

The Supermarine Seafire was a naval version of the Supermarine Spitfire adapted for operation from aircraft carriers. It was analogous in concept to the Hawker Sea Hurricane, a navalized version of the Spitfire's stablemate, the Hawker Hurricane. The name Seafire was derived from the abbreviation of the longer name Sea Spitfire.

 

The idea of adopting a navalized, carrier-capable version of the Supermarine Spitfire had been mooted by the Admiralty as early as May 1938. Despite a pressing need to replace various types of obsolete aircraft that were still in operation with the Fleet Air Arm (FAA), some opposed the notion, such as Winston Churchill, although these disputes were often a result of an overriding priority being placed on maximizing production of land-based Spitfires instead. During 1941 and early 1942, the concept was again pushed for by the Admiralty, culminating in an initial batch of Seafire Mk Ib fighters being provided in late 1941, which were mainly used for pilots to gain experience operating the type at sea. While there were concerns over the low strength of its undercarriage, which had not been strengthened like many naval aircraft would have been, its performance was found to be acceptable.

 

From 1942 onwards, further Seafire models were quickly ordered, including the first operationally-viable Seafire F Mk III variant. This led to the type rapidly spreading throughout the FAA. In November 1942, the first combat use of the Seafire occurred during Operation Torch, the Allied landings in North Africa. In July 1943, the Seafire was used to provide air cover for the Allied invasion of Sicily; and reprised this role in September 1943 during the subsequent Allied invasion of Italy. During 1944, the type was again used in quantity to provide aerial support to Allied ground forces during the Normandy landings and Operation Dragoon in Southern France. During the latter half of 1944, the Seafire became a part of the aerial component of the British Pacific Fleet, where it quickly proved to be a capable interceptor against the feared kamikaze attacks by Japanese pilots which had become increasingly common during the final years of the Pacific War. Several Seafire variants were produced during WWII, more or less mirroring the development of its land-based ancestor.

 

The Seafire continued to be used for some time after the end of the war, and new, dedicated versions were developed and exported. The FAA opted to promptly withdraw all of its Merlin-powered Seafires and replace them with Griffon-powered counterparts. The type saw further active combat use during the Korean War, in which FAA Seafires performed hundreds of missions in the ground attack and combat air patrol roles against North Korean forces during 1950. The Seafire was withdrawn from FAA service during the 1950s and was replaced by the newer Hawker Sea Fury, the last piston engine fighter to be used by the service, along with the first generation of jet-propelled naval fighters, such as the de Havilland Vampire, Supermarine Attacker, and Hawker Sea Hawk.

 

After WWII, the Royal Canadian Navy and French Aviation Navale also obtained Seafires to operate from ex-Royal Navy aircraft carriers. France received a total of 140 Seafires of various versions from 1946 on, including 114 Seafire Mk IIIs in two tranches (35 of them were set aside for spare part) until 1948, and these were followed in 1949 by fifteen Mk. 15 fighters and twelve FR Mk. 23 armed photo reconnaissance aircraft. Additionally, twenty land-based Mk. IXs were delivered to Naval Air Station Cuers-Pierrefeu as trainers.

 

The Seafire Mk. 23 was a dedicated post-war export version. It combined several old and new features and was the final “new” Spitfire variant to be powered by a Merlin engine, namely a Rolls-Royce Merlin 66M with 1,720 hp (1,283 kW) that drove a four-blade propeller. The Mk. 23 was originally built as a fighter (as Seafire F Mk. 23), but most machines were delivered or later converted with provisions for being fitted with two F24 cameras in the rear fuselage and received the service designation FR Mk. 23 (or just FR.23). Only 32 of this interim post-war version were built by Cunliffe-Owen, and all of them were sold to foreign customers.

 

Like the Seafire 17, the 23 had a cut-down rear fuselage and teardrop canopy, which afforded a better all-round field of view than the original cockpit. The windscreen was modified, too, to a rounded section, with narrow quarter windows, rather than the flat windscreen used on land-based Spitfires. As a novel feature the Seafire 23 featured a "sting" arrestor hook instead of the previous V-shaped ventral arrangement.

The fuel capacity was 120 gal (545 l) distributed in two main forward fuselage tanks: the lower tank carried 48 gal (218 l) while the upper tank carried 36 gal (163 l), plus two fuel tanks built into the leading edges of the wings with capacities of 12.5 (57 l) and 5.5 gal (25 l) respectively. It featured a reinforced main undercarriage with longer oleos and a lower rebound ratio, a measure to tame the deck behavior of the Mk. 15 and reducing the propensity of the propeller tips "pecking" the deck during an arrested landing. The softer oleos also stopped the aircraft from occasionally bouncing over the arrestor wires and into the crash barrier.

The wings were taken over from the contemporary Spitfire 21 and therefore not foldable. However, this saved weight and complexity, and the Seafire’s compact dimensions made this flaw acceptable for its operators. The wings were furthermore reinforced, with a stronger main spar necessitated by the new undercarriage, and as a bonus they were able to carry heavier underwing loads than previous Seafire variants. This made the type not only suitable for classic dogfighting (basic armament consisted of four short-barreled 20 mm Hispano V cannon in the outer wings), but also for attack missions with bombs and unguided rockets.

 

The Seafire’s Aéronavale service was quite short, even though they saw hot battle duty. 24 Mk. IIIs were deployed on the carrier Arromanches in 1948 when it sailed for Vietnam to fight in the First Indochina War. The French Seafires operated from land bases and from Arromanches on ground attack missions against the Viet Minh before being withdrawn from combat operations in January 1949.

After returning to European waters, the Aéronavale’s Seafire frontline units were re-equipped with the more modern and capable Seafire 15s and FR 23s, but these were also quickly replaced by Grumman F6F Hellcats from American surplus stock, starting already in 1950. The fighters were retired from carrier operations and soon relegated to training and liaison duties, and eventually scrapped. However, the FR.23s were at this time the only carrier-capable photo reconnaissance aircraft in the Aéronavale’s ranks, so that these machines remained active with Flottille 1.F until 1955, but their career was rather short, too, and immediately ended when the first naval jets became available and raised the performance bar.

  

General characteristics:

Crew: 1

Length: 31 ft 10 in (9.70 m)

Wingspan: 36 ft 10 in (11.23 m)

Height: 12 ft 9 in (3.89 m) tail down with propeller blade vertical

Wing area: 242.1 ft² (22.5 m²)

Empty weight: 5,564 lb (2,524 kg)

Gross weight: 7,415 lb (3,363 kg)

 

Powerplant:

1× Rolls-Royce Merlin 66M V-12 liquid-cooled piston engine,

delivering 1,720 hp (1,283 kW) at 11,000 ft and driving a 4-bladed constant-speed propeller

 

Performance:

Maximum speed: 404 mph (650 km/h) at 21,000 ft (6,400 m)

Cruise speed: 272 mph (438 km/h, 236 kn)

Range: 493 mi (793 km) on internal fuel at cruising speed

965 mi (1,553 km) with 90 gal drop tank

Service ceiling: 42,500 ft (12,954 m)

Rate of climb: 4,745 ft/min (24.1 m/s) at 10,000 ft (3,048 m)

Time to altitude: 20,000 ft (6,096 m) in 8 minutes 6 seconds

 

Armament:

4× 20 mm Hispano V cannon; 175 rpg inboard, 150 rpg outboard

Hardpoints for up to 2× 250 lb (110 kg) bombs (outer wings), plus 1× 500 lb (230 kg) bomb

(ventral hardpoint) or drop tanks, or up to 8× "60 lb" RP-3 rockets on zero-length launchers

  

The kit and its assembly:

This build was another attempt to reduce The Stash. The basis was a Special Hobby FR Mk. 47, which I had originally bought as a donor kit: the engine housing bulges of its Griffon engine were transplanted onto a racing P-51D Mustang. Most of the kit was still there, and from this basis I decided to create a fictional post-WWII Seafire/Spitfire variant.

 

With the Griffon fairings gone a Merlin engine was settled, and the rest developed spontaneously. The propeller was improvised, with a P-51D spinner (Academy kit) and blades from the OOB 5-blade propeller, which are slightly deeper than the blades from the Spitfire Mk. IX/XVI prop. In order to attach it to the hull and keep it movable, I implanted my standard metal axis/styrene tube arrangement.

 

With the smaller Merlin engine, I used the original, smaller Spitfire stabilizers but had to use the big, late rudder, due to the taller fin of the post-ware Spit-/Seafire models. The four-spoke wheels also belong to an earlier Seafire variant. Since it was an option in the kit, I went for a fuselage with camera openings (the kit comes with two alternative fuselages as well as a vast range of optional parts for probably ANY late Spit- and Seafire variant – and also for many fictional hybrids!), resulting in a low spine and a bubble canopy, what gives the aircraft IMHO very sleek and elegant lines. In order to maintain this impression I also used the short cannon barrels from the kit. For extended range on recce missions I furthermore gave the model the exotic underwing slipper tanks instead of the optional missile launch rail stubs under the outer wing sections. Another mod is the re-installment of the small oil cooler under the left wing root from a Spitfire Mk. V instead of the symmetrical standard radiator pair – just another subtle sign that “something’s not right” here.

  

Painting and markings:

The decision to build this model as a French aircraft was inspired by a Caracal Decals set with an Aéronavale Seafire III from the Vietnam tour of duty in 1948, an aircraft with interesting roundels that still carried British FAA WWII colors (Dark Slate Grey/Dark Sea Grey, Sky). Later liveries of the type remain a little obscure, though, and information about them is contradictive. Some profiles show French Seafires in British colors, with uniform (Extra) Dark Sea Grey upper and Sky lower surfaces, combined with a high waterline – much like contemporary FAA aircraft like the Sea Fury. However, I am a bit in doubt concerning the Sky, because French naval aircraft of that era, esp. recce types like the Shorts Sunderland or PBY Catalina, were rather painted in white or very light grey, just with uniform dark grey upper surfaces, reminding of British Coastal Command WWII aircraft.

 

Since this model would be a whif, anyway, and for a pretty look, I adopted the latter design, backed by an undated profile of a contemporary Seafire Mk. XV from Flottille S.54, a training unit, probably from the Fifties - not any valid guarantee for authenticity, but it looks good, if not elegant!

Another option from that era would have been an all-blue USN style livery, which should look great on a Spitfire, too. But I wanted something more elegant and odd, underpinning the bubbletop Seafire’s clean lines.

 

I settled for Extra Dark Sea Grey (Humbrol 123) and Light Grey (FS. 36495, Humbrol 147) as basic tones, with a very high waterline. The spinner was painted yellow, the only colorful marking. Being a post-war aircraft of British origin, the cockpit interior was painted in black (Revell 09, anthracite). The landing gear wells became RAF Cockpit Green (Humbrol 78), while the inside of the respective covers became Sky (Humbrol 90) – reflecting the RAF/FAA’s post-war practice of applying the external camouflage paint on these surfaces on Spit-/Seafires, too. On this specific aircraft the model displays, just the exterior had been painted over by the new operator. Looks weird, but it’s a nice detail.

 

The roundels came from the aforementioned 1948 Seafire Mk. III, and their odd design – esp. the large ones on the wings, and only the fuselage roundels carry the Aéronavale’s anchor icon and a yellow border – creates a slightly confusing look. Unfortunately, the roundels were not 100% opaque, this became only apparent after their application, and they did not adhere well, either.

The tactical code had to be improvised with single, black letters of various sizes – they come from a Hobby Boss F4F USN pre-WWII Wildcat, but were completely re-arrenged into the French format. The fin flash on the rudder had to be painted, with red and blue paint, in an attempt to match the decals’ tones, and separated by a white decal stripe. The anchor icon on the rudder had to be printed by myself, unfortunately the decal on the bow side partly disintegrated. Stencils were taken from the Special Hobby kit’s OOB sheet.

 

The model received a light black ink washing, post-panel shading with dry-brushing and some soot stains around the exhausts, but not too much weathering, since it would be relatively new. Finally, everything was sealed with matt acrylic varnish.

  

A relatively quick and simple build, and the Special Hobby kit went together with little problems – a very nice and versatile offering. The mods are subtle, but I like the slender look of this late Spitfire model, coupled with the elegant Merlin engine – combined into the fictional Mk. 23. The elegant livery just underlines the aircraft’s sleek lines. Not spectacular, but a pretty result.

 

+++ DISCLAIMER +++

Nothing you see here is real, even though the model, the conversion or the presented background story might be based on historical facts. BEWARE!

  

Some background:

The Douglas A-4 Skyhawk is a single-seat subsonic carrier-capable light attack aircraft developed for the United States Navy and United States Marine Corps in the early 1950s. The delta-winged, single turbojet-engine Skyhawk was designed and produced by Douglas Aircraft Company, and later by McDonnell Douglas. The Skyhawk was a relatively light aircraft, with a maximum takeoff weight of 24,500 pounds (11,100 kg) and had a top speed of 670 miles per hour (1,080 km/h). The aircraft's five hardpoints supported a variety of missiles, bombs, and other munitions, including nuclear bombs, with a bomb load equivalent to that of a World War II–era Boeing B-17 bomber.

 

Since its introduction, the Skyhawk had been adopted by countries beyond the United States and saw a very long career, with many baseline variants and local adaptations. Israel was, starting in 1966, the largest export customer for Skyhawks, and a total of 217 A-4s were eventually procured, plus another 46 that were transferred from U.S. units in Operation Nickel Grass to compensate for large losses during the Yom Kippur War.

The Skyhawk was the first U.S. warplane to be offered to the Israeli Air Force, marking the point where the U.S. took over from France as Israel's chief military supplier. A special version of the A-4 was developed for the IAF, the A-4H. This was an A-4E with improved avionics and an uprated J52-P-8A engine with more thrust from the A-4F that had replaced the Wright J65 in earlier Skyhawk variants. Armament consisted of twin DEFA 30 mm cannon in place of the rather unreliable Colt Mk.12 20 mm cannons. Later modifications included the avionics hump and an extended tailpipe, implemented in Israel by IAI to provide greater protection against heat-seeking surface-to-air missiles.

 

Deliveries began after the Six-Day War, and A-4s soon formed the backbone of the IAF's ground-attack force. In Heyl Ha'avir (Israels Air Force/IAF) service, the A-4 Skyhawk was named as the Ayit (Hebrew: עיט, for Eagle). A total of 90 A-4Hs were delivered and became the IAF’s primary attack plane in the War of Attrition between 1968 and 1970. They cost only a quarter of a Phantom II and carried half of its payload, making them highly efficient attack aircraft, even though losses were high and a number of A-4Es were imported to fill the gaps.

In early 1973, the improved A-4N Skyhawk for Israel entered service, based on the A-4M models used by the U.S. Marine Corps, and it gradually replaced the simpler and less capable A-4Hs, which were still operated in 2nd line duties. Many of the A-4Hs and A-4Es were subsequently stored in reserve in flying condition, for modernization or for sale, and two countries made purchases from this overstock: Indonesia and Uruguay.

 

Due to the declining relationship between Indonesia and the Soviet Union, there was a lack of spare parts for military hardware supplied by the Communist Bloc. Soon, most of them were scrapped. The Indonesian Air Force (TNI-AU) acquired ex-Israeli A-4Es to replace its Il-28 Beagles and Tu-16 Badgers in a covert operation with Israel, since both countries did not maintain diplomatic relationships. A total of thirty-two A-4s served the Indonesian Air Force from 1982 until 2003.

 

Uruguay was the other IDF customer, even though a smaller one. The Uruguayan Air Force was originally created as part of the National Army of Uruguay but was established as a separate branch on December 4, 1953, becoming the youngest, and also the smallest branch of the Armed Forces of Uruguay.

 

Since the end of the 1960s and the beginning of the 1970s, the Air Force was involved in the fight against the guerrilla activity that was present in the country, focusing against the MLN-T (Movimiento de Liberación Nacional – Tupamaros or Tupamaros – National Liberation Movement), that later triggered a participation in the country's politics.

On February 8, 1973, President Juan María Bordaberry tried to assert his authority over the Armed Forces by returning them to their normal duties and appointing a retired Army general, Antonio Francese, as the new Minister of National Defense. Initially, the Navy of Uruguay supported the appointment, but the National Army and Uruguayan Air Force commanders rejected it outright. On February 9 and 10, the Army and Air Force issued public proclamations and demanded his dismissal and changes in the country's political and economic system. Bordaberry then gave up to the pressure, and on February 12, at the Cap. Juan Manuel Boiso Lanza Air Base, Headquarters of the General Command of the Air Force, the National Security Council (Consejo de Seguridad Nacional) was created. The Commander-in-Chief of the Air Force was one of its permanent members, and the Armed Forces of Uruguay from now on were effectively in control of the country, with Bordaberry just participating in a self-coup.

 

During this period of time, the Air Force took control of the country's airdromes, some aircraft that were seized from the subversion, appointed some of its general officers to led the flag carrier PLUNA, reinforced the combat fleet with Cessna A-37B Dragonfly and FMA IA-58A Pucará attack aircraft in 1976 and 1981, modernized the transport aircraft with the purchase of five Embraer C-95 Bandeirante in 1975 and five CASA C-212 Aviocar and one Gates Learjet 35A in 1981, introduced to service two brand new Bell 212 helicopters, and achieved another milestone, with the first landing of a Uruguayan aircraft in Antarctica, on January 28, 1984, with a Fairchild-Hiller FH-227D.

 

Since the end of the military government, the Air Force returned to its normal tasks, and always acting under the command of the President and in agreement with the Minister of National Defense, without having entered the country's politics again, whose participation, in addition, has been forbidden in almost all activities for the Armed Forces. Towards the late Eighties, the Uruguayan Air Force underwent a fundamental modernization program: Between 1989 and 1999 a total number of 48 aircraft were acquired, including twelve Skyhawks (ten single seaters and two trainers), followed by three Lockheed C-130B Hercules in 1992, to carry out long-range strategic missions, six Pilatus PC-7U Turbo Trainers, also acquired in 1992 for advanced training (replacing the aging fleet of Beechcraft T-34 Mentors in Santa Bernardina, Durazno, that had been in service with the Air Force since 1977), two Beechcraft Baron 58 and ten Cessna U-206H Stationair in 1998 (with Uruguay becoming the first operator of this variant, used for transport, training and surveillance). Two Eurocopter AS365N2 Dauphin for search and rescue and transport followed, also in 1998, and 13 Aermacchi SF-260 in 1999, to fully replace the aging fleet of T-34 training aircraft and become the new basic trainer of the Uruguayan Air Force within the Military School of Aeronautics (Escuela Militar de Aeronáutica) in Pando, Canelones. Furthermore, on April 27, 1994, through Decree No. 177/994 of the Executive Power, a new Air Force Organization was approved, and the Tactical Regiments and Aviation Groups disappeared to become Air Squadrons, leading to the current structure of the Uruguayan Air Force.

 

The Skyhawks were procured as more capable complement and partial replacement for the FAU’s Cessna A-37B Dragonfly and FMA IA-58A Pucará attack aircraft fleet. Being fast jets, however, they would also be tasked with limited airspace defense duties and supposed to escort and provide aerial cover for the other attack types in the FAU’s inventory. The Skyhawks were all former IDF A-4H/TA-4Hs. They retained their characteristic tail pipe extensions against IR-guided missiles (primarily MANPADS) as well as the retrofitted avionics hump, but there were many less visible changes, too.

 

After several years in storage, a full refurbishment had taken place at Israel Aircraft Industries (IAI). The single seaters’ original Stewart-Warner AN/APG-53A navigation and fire control radar was retained, but some critical avionics were removed before export, e. g. the ability to carry and deploy AGM-45 Shrike anti-radar-missiles or the rather unreliable AGM-12 Bullpup, as well as the Skyhawk’s LABS (toss-bombing capability) that made it a potential nuclear bomber. On the other side avionics and wirings to carry AIM-9B Sidewinder AAMs on the outer pair of underwing pylons were added, so that the FAU Skyhawks could engage into aerial combat with more than just their onboard guns.

The A-4Hs’ 30 mm DEFA cannons were removed before delivery, too, even though their characteristic gondola fairings were retained. In Uruguay they were replaced with 20 mm Hispano-Suiza HS.804 autocannons, to create communality with the FAU’s Pucará COIN/attack aircraft and simplify logistics. MER and TER units (Multiple/Triple Ejector Racks), leased from Argentina, boosted the Skyhawks’ ordnance delivery capabilities. A Marconi ARL18223 360° radar warning receiver and a Litton LTN-211 GPS navigation system were introduced, too. Despite these many modifications the FAU’s A-4Hs retained their designation and, unofficially, the former Israeli “Eagles” were aptly nicknamed “Águila” by their new crews and later by the public, too.

 

Upon introduction into service the machines received a disruptive NATO-style grey/green camouflage with off-white undersides, which they should retain for the rest of their lives – except for a single machine (648), which was painted in an experimental all-grey scheme. However, like the FAU Pucarás, which received grim looking but distinctive nose art during their career, the Skyhawks soon received similar decorations, representing the local ‘Jabalí’ (wild boars).

 

During the Nineties, the Uruguayan Skyhawks were frequently deployed together with Pucarás along the Brazilian border: Brazilian nationals were detected removing cattle from Uruguayan territory! Dissuasive missions were flown by the Pucarás departing from Rivera to Chuy in eastern Uruguay, covering a span of more than 200 nm (368 km) along the Uruguay/Brazil border, relaying the location of the offending persons to Uruguay’s Army armored units on the ground to take dissuading action. The Skyhawks flew high altitude escorts and prevented intrusion of the Uruguayan airspace from Brazil, and they were frequently called in to identify and repel intruders with low-level flypasts.

 

The Skyhawks furthermore frequently showed up around the Uruguayan city Masoller as a visible show of force in a longstanding border and territory dispute with Brazil, although this had not harmed close diplomatic and economic relations between the two countries. The disputed area is called Rincón de Artigas (Portuguese: Rincão de Artigas), and the dispute arose from the fact that the treaty that delimited the Brazil-Uruguay border in 1861 determined that the border in that area would be a creek called Arroyo de la Invernada (Portuguese: Arroio da Invernada), but the two countries disagree on which actual stream is the so-named one. Another disputed territory is a Brazilian island at the confluence of the Quaraí River and the Uruguay River. None of these involvements led to armed conflict, though.

 

The Uruguayan Skyhawk fired in anger only over their homeland during drugbusting raids and for interception of low performance, drug trafficking aircraft which were increasingly operating in the region. However, the slower IA 58 Pucará turned out to be the better-suited platform for this task, even though the Skyhawks more than once scared suspicious aircraft away or forced them to land, sometimes with the use of gunfire. At least one such drug transport aircraft was reputedly shot down over Uruguayan territory as its pilot did not reply or react and tried to escape over the border into safe airspace.

 

These duties lasted well into the Nineties, but Uruguay’s small Skyhawk fleet was relatively expensive to operate so that maintenance and their operations, too, were dramatically cut back after 2000. The airframes’ age also showed with dramatic effect: two A-4Hs were lost independently in 2001 and 2002 due to structural fatigue. Active duties were more and more cut back and relegated back to the A-37s and IA 58s. In October 2008, it was decided that the Uruguayan A-4 Skyhawk fleet would be withdrawn and replaced by more modern aircraft, able to perform equally well in the training role and, if required, close support and interdiction missions on the battlefield. The last flight of an FAU A-4 took place in September 2009.

 

This replacement program did not yield any fruits, though. In May 2013 eighteen refurbished Sukhoi Su-30 MKI multirole air superiority fighters were offered by the Russian Federation and Sukhoi in remarkably favorable condition that included credit facilities and an agreement branch for maintenance. These conditions were also offered for the Yak-130 Mitten. By December 2013 Uruguayan personnel had test flown this plane in Russia. In the meantime, a number of A-37B Dragonfly were purchased from the Ecuadorian Air Force in January 2014 to fill the FAU’s operational gaps. Also, the Uruguayan and Swiss governments discussed a possible agreement for the purchase of ten Swiss Air Force Northrop F-5Es plus engines, spare parts and training, but no actual progress was made. The Uruguayan Air Force also used to show interest on the IA-58D Pucará Delta modernization program offered by Fábrica Argentina de Aviones, but more recently, among some of the possible aircraft that the Air Force was considering, there were the Hongdu JL-10 or the Alenia Aermacchi M-346 Master. But despite of how necessary a new attack aircraft is for the FAU, no procurements have been achieved yet.

  

General characteristics:

Crew: 1

Length: 40 ft 1.5 in (12.230 m)

Wingspan: 27 ft 6 in (8.38 m)

Height: 15 ft 2 in (4.62 m)

Wing area: 260 sq ft (24 m²)

Airfoil: root: NACA 0008-1.1-25; tip: NACA 0005-.825-50

Empty weight: 9,853 lb (4,469 kg)

Gross weight: 16,216 lb (7,355 kg)

Max takeoff weight: 24,500 lb (11,113 kg)

 

Powerplant:

1× Pratt & Whitney J52-P-8A turbojet engine, 9,300 lbf (41 kN) thrust

 

Performance:

Maximum speed: 585 kn (673 mph, 1,083 km/h) at sea level

Range: 1,008 nmi (1,160 mi, 1,867 km)

Ferry range: 2,194 nmi (2,525 mi, 4,063 km)

g limits: +8/-3

Rate of climb: 5,750 ft/min (29.2 m/s)

Wing loading: 62.4 lb/sq ft (305 kg/m²)

Thrust/weight: 0.526

 

Armament:

2× 20 mm (0.79 in) Hispano-Suiza HS.804 autocannon with 100 RPG

5× hardpoints with a total capacity of 8,500 lb (3,900 kg)

  

The kit and its assembly:

The third build in my recent “Uruguayan What-if Trip”, and a rather spontaneous idea. When I searched for decals for my Uruguayan Sherman tank, I came across a decal sheet from an Airfix IA 58 Pucará (2008 re-boxing), which included, beyond Argentinian markings, a Uruguayan machine, too. This made me wonder about a jet-powered successor, and the omnipresent Skyhawk appeared like a natural choice for a light attack aircraft – even though I also considered an IAI Kfir but found its Mach 2 capability a bit overdone.

Checking history I found a suitable time frame during the Nineties for a potential introduction of the A-4 into Uruguayan service, and this was also the time when Indonesia indirectly bought 2nd hand A-4E/Hs from Israel. This was a good match and defined both the background story as well as the model and its details.

 

The model kit is an Italeri A-4E/F (Revell re-boxing), built mostly OOB with a short/early fin tip (the kit comes with an optional part for it, but it is too short and I used the alternative A-4M fin tip from the kit and re-shaped its leading edge) and the bent refueling probe because of the radar in the nose (the original straight boom interfered with it). I just implanted an extended resin tailpipe (from Aires, see below), used the OOB optional brake parachute fairing and scratched fairings for the A-4H’s former DEFA guns (which were placed, due to their size, in a lower position than the original 20 mm guns and had an odd shape) from styrene rods.

 

I also modified the ordnance: the OOB ventral drop tank was taken over but the kit’s original LAU-19 pods molded onto the inner wing pylons were cut off and moved to the outer stations. The inner pylons then received MERs with five Mk. 82 500 lb iron bombs each (left over from a Hasegawa Skyhawk kit) – typically for the Skyhawk, the inner front stations on the MERs (and on TERs, too) were left empty, because anything bigger than a 250 lb Mk. 81 bomb interfered with the landing gear covers.

 

Building posed no real problems; some PSR was necessary on many seams, though, but that’s standard for the Italeri Skyhawk kit. Just the extended tailpipe caused unexpected trouble: the very nice and detailed Aires resin insert turned out to be a whole 2mm(!) wider than the Skyhawk’s tail section, even though its height and shape was fine. I solved this pragmatically and, after several trials, glued the extended pipe between the fuselage halves, closed them with some force and filled the resulting wedge-shaped ventral gap that extended forward almost up to the wings’ trailing edge with putty. Under the paint this stunt is not obvious, and I suspect that the Italeri Skyhawk’s tail is simply too narrow?

 

Different/additional blade antennae were added under the front fuselage and behind the canopy as well as a tiny pitot in front of the windscreen (piece of thin wire) and fairings for the radar warning receivers were integrated into the fin’s leading edge and above the extended tail pipe, scratched from styrene sheet material. And, finally, a thin rod (made from heated styrene) was added for the Skyhawk’s steerable front wheel mechanism.

 

A good thing about the Italeri Skyhawk is that its clear part encompasses the whole canopy, including its frame. It comes as a single piece, though, but can be easily cut in two parts to allow an open cockpit display. The alternative Hasegawa A-4E/F has the flaw that the clear part is molded without the canopy frame, which has a rather complex shape, so that modding it into open position is a very complicated task.

  

Painting and markings:

Basically very simple: I relied upon FAU Pucarás as benchmark, which carry a rather unremarkable NATO-style livery in dark grey and dark green over very light grey, almost white undersides. This does not sound interesting, but it’s not a color combo typically seen on a Skyhawk, so that this already offers a subtle whiffy touch – and it suits the Skyhawk IMHO well.

 

To make the simple scheme more interesting, though, I decided to apply the camouflage in a more disruptive, higher resolution pattern, using the Kuwaiti A-4KU pattern as benchmark, just with replaced colors. On real-life pictures, the Uruguayan Pucarás as well as some early A-37s show a good contrast between the green and the grey, so that I chose Tamiya XF-62 (U.S. WWII Olive Drab) and Humbrol 156 (RAF Dark Camouflage Grey) as basic tones; the undersides were painted in Humbrol 147 (FS 36495), leaving a brightness margin for post-shading with an even lighter tone.

 

The landing gear as well as the air intakes’ interior were painted in white, the landing gear covers’ edges received a thin red edge. The cockpit interior became standard Dark Gull Grey.

For good contrast with the light undersides, the rocket launchers became light grey (Humbrol 127) drab. The MERs became classic white and the ten 250 lb bombs were painted in olive drab.

 

As usual, the kit received an overall light black ink washing and some post-panel shading, which also acts as a weathering measure. Esp. the Pucarás’ grey appears very bleached on many photos.

 

Roundels, fin flash and FAU taglines came from the aforementioned Airfix Pucará sheet, even though they turned out to be rather thick and not printed sharply. Most stencils were taken from an Airfix A-4Q Skyhawk, one of the new mold kits, which also came with Argentinian markings and stencils in Spanish. The respective sheet also provided a decal for the black anti-glare panel, even though it had to be cut in two halves to fit in front of the wider A-4E windshield, and the resulting gap was painted out with black. The tactical codes once belonged to a Kawasaki T-4 (Hasegawa). The soot-hiding squares above the gun muzzles are generic black decals. The only decal that was taken over from the Skyhawk’s OOB decal sheet were the rings around the arrester hook.

 

Overall, the FAU Skyhawk still looked rather dry. To add some excitement, I gave the aircraft a wild boar “face”, similar to the FAU Pucarás. The decoration originally belongs to an USAF A-10 and came from a HiDecal sheet. Unfortunately, this boar face was carried by a rather special A-10 with an experimental desert paint scheme consisting of Brown (FS 20140), Tan Special (FS 20400) and Sand (FS 20266) that was applied before deployment to Saudi Arabia in November 1990. This scheme did not catch on, though, and most A-10s retained their murky Europe One/Lizard scheme. Therefore, the artwork consists primarily of black and sand – white would have been better, stylistically. But I took what I could get and, as a kind of compensation, the sand color does not make the boar snout stand out too much. To my surprise, the four decals that create the wraparound hog face fitted quite well in size and around the Skyhawk’s rather pointed nose. I just left the nostrils away because they’d look odd together with the small black radome and a small ventral gap between the mouth halves had to be bridged with black paint and another piece of decal sheet that simulates a di-electric cover.

 

Finally, the model was sealed with matt acrylic varnish and ordnance as well as landing gear were mounted.

  

The third and for now the last build in my recent ‘Uruguayan whif’ model series. I like the grey-green Skyhawk a lot – it’s not spectacular and looks very down-to-earth (except for the nose art, maybe), but it’s very believable. The NATO style livery is rather unusual for the A-4, it was AFAIK not carried by any real in-service Skyhawk, but it suits the aircraft well.

+++ DISCLAIMER +++

Nothing you see here is real, even though the conversion or the presented background story might be based historical facts. BEWARE!

  

Some background:

The ASTA (Aerospace Technologies of Australia, formerly Government Aircraft Factories) Baza development was started in 1995 when the Royal Australian Air Force was searching for a two-seat training aircraft that would allow the transition from initial training on piston-engined aircraft to jets, and could also be used for weapon training and CAS/reconnaissance duties.

 

ASTA responded with a low-wing two-turboprop-engined all-metal monoplane with retractable landing gear, capable of operating from unprepared strips when operationally required. The aircraft, internally coded “A-31”, was of conventional, all-metal (mainly duralumin) construction. The unswept cantilever wings have 3° of dihedral and are fitted with slotted trailing-edge flaps.

 

The A-31 had a tandem cockpit arrangement; the crew of two was seated under the upward opening clamshell canopy on Martin-Baker Mk 6AP6A zero/zero ejection seats and were provided with dual controls.

 

Armor plating was fitted to protect the crew and engines from hostile ground fire. The aircraft was powered by a pair of Garrett TPE 331 engines, driving sets of three-bladed propellers which were also capable of being used as air brakes.

 

The A-31 was designed for operations from short, rough airstrips.[The retractable tricycle landing gear, with a single nose wheel and twin main wheels retracting into the engine nacelles, is therefore fitted with low pressure tires to suit operations on rough ground, while the undercarriage legs are tall to give good clearance for underslung weapon loads. The undercarriage, flaps and brakes are operated hydraulically, with no pneumatic systems.

 

Two JATO rockets can be fitted under the fuselage to allow extra-short take-off.

Fuel is fed from two fuselage tanks of combined capacity of 800 L (180 imp gal; 210 US gal) and two self-sealing tanks of 460 L (100 imp gal; 120 US gal) in the wings.

 

Fixed armament of the A-31 consisted of two 30mm Aden cannons mounted under the cockpits with 200 rounds each. A total of nine hardpoints were fitted for the carriage of external stores such as bombs, rockets or external fuel tanks, with one of 1,000 kg (2,200 lb) capacity mounted under the fuselage and the remaining two pairs of 500 kg (1,100 lb) capacity beneath the wing roots and wings inside of the engine nacelles, and two more pairs of hardpoints outside of the engines for another 500 kg and 227 kg, respectively. Total external weapons load was limited to 6,800 lb (3,085 kg) of weapons, though.

Onboard armaments were aimed by a simple reflector sight, since no all weather/night capabilities were called for – even though provisions were made that external sensors could be carried (e. g. a TISEO or a PAVE Spike pod).

 

Severe competition arose through the BAe Hawk, though: the Royal Australian Air Force ordered 33 Hawk 127 Lead-in Fighters (LIFs) in June 1997, 12 of which were produced in the UK and 21 in Australia – and this procurement severely hampered the A-31’s progress. The initial plan to build 66 aircraft for domestic use, with prospects for export, e. g. to Sri Lanka, Indonesia or Turkey, was cut down to a mere 32 aircraft which were to be used in conjunction with the Australian Army in the FAC role and against mobile ground targets.

 

This extended role required an upgrade with additional avionics, an optional forward looking infrared (FLIR) sensor and a laser ranger in an extended nose section, which lead to the Mk. II configuration - effectively, only five machines were produced as Mk.I types, and they were updated to Mk. II configuration even before delivery to the RAAF in August 1999.

 

Since then, the ASTA A-31 has been used in concunction with RAAF's Pilatus PC-9 and BAe Hawk Mk. 127 trainers. Beyond educational duties the type is also employed for Fleet support to Navy operations and for close air support to Army operations.

 

The 'Baza' (christened by a small sized bird of prey found in the forests of South Asia and Southeast Asia) has even seen serious military duty and already fired in anger: since August 2007, a detachment of No. 114 Mobile Control and Reporting Unit RAAF has been on active service at Kandahar Airfield in southern Afghanistan, and a constant detachment of six A-31's from RAAF 76 Suqadron has been assigned to armed reconnaissance and protection of approximately 75 personnel deployed with the AN/TPS-77 radar, assigned the responsibility to co-ordinate coalition air operations.

  

General characteristics

Crew: 2

Length (incl. Pitot): 14.69 m (48 ft 1 ½ in)

Wingspan: 14.97 m (49 ft)

Height: 3, 75 m (12 ft 3 in)

Wing area: 30.30 m2 (326.1 sq ft)

Aspect ratio: 6.9:1

Airfoil: NACA 642A215 at root, NACA641 at tip

Empty weight: 4,020 kg (8,863 lb)

Max takeoff weight: 6,800 kg (14,991 lb)

Internal fuel capacity: 1,280 L (280 imp gal; 340 US gal)

 

Powerplant:

2 × Garrett TPE 331-11U-601G turboprop engines, 820 kW (1.100 hp) each

 

Performance

Maximum speed: 515 km/h (311 mph; 270 kn) at 4.570 m (15.000 ft)

Cruising speed: 430 km/h (267 mph; 232 kn) at 2.500 m (8.200 ft)

Stall speed: 143 km/h (89 mph; 77 kn) (flaps and undercarriage down)

Never exceed speed: 750 km/h (466 mph; 405 kn)

Range:1.611 km (1.000 mi; 868 nmi), clean and internal fuel only

Ferry range: 3,710 km (2,305 mi; 2,003 nmi) max internal and external fuel

Service ceiling: 10,000 m (32,808 ft)

g limits: +6/-3 g

Rate of climb: 6.5 m/s (1.276 ft/min)

 

Armament

2× 30 mm ADEN cannons in the lower nose

Up to 6,800 lb (3,085 kg) of weapons on nine external hardpoints

  

The kit and its assembly:

Like many of my whifs, this was spawned by a project at whatifmodelers.com from fellow user silverwindblade that ran under the handle "COIN aircraft from a Hawk" - and in fact, the BAe Hawk's fuselage with its staggered cockpit and good field of view appears as a good basis for a conversion.

 

I liked the idea VERY much, and while silverwindblade's work would rather develop into a futuristic canard layout aircraft, I decided to keep the COIN aircraft rather conservative - the FMA 58 'Pucara' from Argentina would be a proper benchmark.

 

The basis here is the Italeri BAe Hawk Mk. 127 kit which comes with the longer nose and modified wings for the RAAF version, as well as with false decals.

Anyway, I'd only use the fuselage, anything else is implanted, partly from unlikely donation kits! Wings incl. engine nacelles and stablizers come from the vintage box scale (1:166?) Revell Convair R3Y-2 Tradewind flying boat(!), the fin from an Academy OV-10 Bronco.

The landing gear was puzzled together, among other from parts of a 1:200 Concorde, the propellers were scratched.

 

Biggest mod to the fuselage is the dissection of the air intakes (and their blending with the fuselage) as well as a new tail section where the Adour jet engine's exhaust had been.

  

Painting and markings:

This model was agood excuse to finally apply an SIOP color scheme, which was originally carried by USAF's strategic bombers like B-52 or FB-111. But what actually inspired me were Australian C-130s - it took some time to figure out that their scheme were the USAF's SIOP colors (FS 34201, 34159 and 34079). But that made the Baza's potential user's choice (and fictional origin) easy.

 

As a COIN role aircraft I settled on a wraparound scheme. I found a pattern scheme on an USN Aggerssor A-4 Skyhawk that had been painted in SIOP colors, too, and adapted it for the model. Basic colors were Humbrol 31, 84 and 116, good approximations - the result looks odd, but suits the Baza well.

 

Later, panels were emphasized through dry painting with lighter shades and a light black ink wash was applied.

 

The landing gear became classic white, the cockpit interior medium gray - nothing fancy.

 

The markings were improvised - the Italeri Hawk Mk. 127 features RAAF 'roos, but these are printed in black - wrong for the OOB kit, but very welcome on my aircraft. The rest was salvaged from the scrap box, the tactical code A-31-06 created with single letters from TL Modellbau.

Colosseum

Following, a text, in english, from the Wikipedia the Free Encyclopedia:

The Colosseum, or the Coliseum, originally the Flavian Amphitheatre (Latin: Amphitheatrum Flavium, Italian Anfiteatro Flavio or Colosseo), is an elliptical amphitheatre in the centre of the city of Rome, Italy, the largest ever built in the Roman Empire. It is considered one of the greatest works of Roman architecture and Roman engineering.

Occupying a site just east of the Roman Forum, its construction started between 70 and 72 AD[1] under the emperor Vespasian and was completed in 80 AD under Titus,[2] with further modifications being made during Domitian's reign (81–96).[3] The name "Amphitheatrum Flavium" derives from both Vespasian's and Titus's family name (Flavius, from the gens Flavia).

Capable of seating 50,000 spectators,[1][4][5] the Colosseum was used for gladiatorial contests and public spectacles such as mock sea battles, animal hunts, executions, re-enactments of famous battles, and dramas based on Classical mythology. The building ceased to be used for entertainment in the early medieval era. It was later reused for such purposes as housing, workshops, quarters for a religious order, a fortress, a quarry, and a Christian shrine.

Although in the 21st century it stays partially ruined because of damage caused by devastating earthquakes and stone-robbers, the Colosseum is an iconic symbol of Imperial Rome. It is one of Rome's most popular tourist attractions and still has close connections with the Roman Catholic Church, as each Good Friday the Pope leads a torchlit "Way of the Cross" procession that starts in the area around the Colosseum.[6]

The Colosseum is also depicted on the Italian version of the five-cent euro coin.

The Colosseum's original Latin name was Amphitheatrum Flavium, often anglicized as Flavian Amphitheater. The building was constructed by emperors of the Flavian dynasty, hence its original name, after the reign of Emperor Nero.[7] This name is still used in modern English, but generally the structure is better known as the Colosseum. In antiquity, Romans may have referred to the Colosseum by the unofficial name Amphitheatrum Caesareum; this name could have been strictly poetic.[8][9] This name was not exclusive to the Colosseum; Vespasian and Titus, builders of the Colosseum, also constructed an amphitheater of the same name in Puteoli (modern Pozzuoli).[10]

The name Colosseum has long been believed to be derived from a colossal statue of Nero nearby.[3] (the statue of Nero itself being named after one of the original ancient wonders, the Colossus of Rhodes[citation needed]. This statue was later remodeled by Nero's successors into the likeness of Helios (Sol) or Apollo, the sun god, by adding the appropriate solar crown. Nero's head was also replaced several times with the heads of succeeding emperors. Despite its pagan links, the statue remained standing well into the medieval era and was credited with magical powers. It came to be seen as an iconic symbol of the permanence of Rome.

In the 8th century, a famous epigram attributed to the Venerable Bede celebrated the symbolic significance of the statue in a prophecy that is variously quoted: Quamdiu stat Colisæus, stat et Roma; quando cadet colisæus, cadet et Roma; quando cadet Roma, cadet et mundus ("as long as the Colossus stands, so shall Rome; when the Colossus falls, Rome shall fall; when Rome falls, so falls the world").[11] This is often mistranslated to refer to the Colosseum rather than the Colossus (as in, for instance, Byron's poem Childe Harold's Pilgrimage). However, at the time that the Pseudo-Bede wrote, the masculine noun coliseus was applied to the statue rather than to what was still known as the Flavian amphitheatre.

The Colossus did eventually fall, possibly being pulled down to reuse its bronze. By the year 1000 the name "Colosseum" had been coined to refer to the amphitheatre. The statue itself was largely forgotten and only its base survives, situated between the Colosseum and the nearby Temple of Venus and Roma.[12]

The name further evolved to Coliseum during the Middle Ages. In Italy, the amphitheatre is still known as il Colosseo, and other Romance languages have come to use similar forms such as le Colisée (French), el Coliseo (Spanish) and o Coliseu (Portuguese).

Construction of the Colosseum began under the rule of the Emperor Vespasian[3] in around 70–72AD. The site chosen was a flat area on the floor of a low valley between the Caelian, Esquiline and Palatine Hills, through which a canalised stream ran. By the 2nd century BC the area was densely inhabited. It was devastated by the Great Fire of Rome in AD 64, following which Nero seized much of the area to add to his personal domain. He built the grandiose Domus Aurea on the site, in front of which he created an artificial lake surrounded by pavilions, gardens and porticoes. The existing Aqua Claudia aqueduct was extended to supply water to the area and the gigantic bronze Colossus of Nero was set up nearby at the entrance to the Domus Aurea.[12]

Although the Colossus was preserved, much of the Domus Aurea was torn down. The lake was filled in and the land reused as the location for the new Flavian Amphitheatre. Gladiatorial schools and other support buildings were constructed nearby within the former grounds of the Domus Aurea. According to a reconstructed inscription found on the site, "the emperor Vespasian ordered this new amphitheatre to be erected from his general's share of the booty." This is thought to refer to the vast quantity of treasure seized by the Romans following their victory in the Great Jewish Revolt in 70AD. The Colosseum can be thus interpreted as a great triumphal monument built in the Roman tradition of celebrating great victories[12], placating the Roman people instead of returning soldiers. Vespasian's decision to build the Colosseum on the site of Nero's lake can also be seen as a populist gesture of returning to the people an area of the city which Nero had appropriated for his own use. In contrast to many other amphitheatres, which were located on the outskirts of a city, the Colosseum was constructed in the city centre; in effect, placing it both literally and symbolically at the heart of Rome.

The Colosseum had been completed up to the third story by the time of Vespasian's death in 79. The top level was finished and the building inaugurated by his son, Titus, in 80.[3] Dio Cassius recounts that over 9,000 wild animals were killed during the inaugural games of the amphitheatre. The building was remodelled further under Vespasian's younger son, the newly designated Emperor Domitian, who constructed the hypogeum, a series of underground tunnels used to house animals and slaves. He also added a gallery to the top of the Colosseum to increase its seating capacity.

In 217, the Colosseum was badly damaged by a major fire (caused by lightning, according to Dio Cassius[13]) which destroyed the wooden upper levels of the amphitheatre's interior. It was not fully repaired until about 240 and underwent further repairs in 250 or 252 and again in 320. An inscription records the restoration of various parts of the Colosseum under Theodosius II and Valentinian III (reigned 425–455), possibly to repair damage caused by a major earthquake in 443; more work followed in 484[14] and 508. The arena continued to be used for contests well into the 6th century, with gladiatorial fights last mentioned around 435. Animal hunts continued until at least 523, when Anicius Maximus celebrated his consulship with some venationes, criticised by King Theodoric the Great for their high cost.

The Colosseum underwent several radical changes of use during the medieval period. By the late 6th century a small church had been built into the structure of the amphitheatre, though this apparently did not confer any particular religious significance on the building as a whole. The arena was converted into a cemetery. The numerous vaulted spaces in the arcades under the seating were converted into housing and workshops, and are recorded as still being rented out as late as the 12th century. Around 1200 the Frangipani family took over the Colosseum and fortified it, apparently using it as a castle.

Severe damage was inflicted on the Colosseum by the great earthquake in 1349, causing the outer south side, lying on a less stable alluvional terrain, to collapse. Much of the tumbled stone was reused to build palaces, churches, hospitals and other buildings elsewhere in Rome. A religious order moved into the northern third of the Colosseum in the mid-14th century and continued to inhabit it until as late as the early 19th century. The interior of the amphitheatre was extensively stripped of stone, which was reused elsewhere, or (in the case of the marble façade) was burned to make quicklime.[12] The bronze clamps which held the stonework together were pried or hacked out of the walls, leaving numerous pockmarks which still scar the building today.

During the 16th and 17th century, Church officials sought a productive role for the vast derelict hulk of the Colosseum. Pope Sixtus V (1585–1590) planned to turn the building into a wool factory to provide employment for Rome's prostitutes, though this proposal fell through with his premature death.[15] In 1671 Cardinal Altieri authorized its use for bullfights; a public outcry caused the idea to be hastily abandoned.

In 1749, Pope Benedict XIV endorsed as official Church policy the view that the Colosseum was a sacred site where early Christians had been martyred. He forbade the use of the Colosseum as a quarry and consecrated the building to the Passion of Christ and installed Stations of the Cross, declaring it sanctified by the blood of the Christian martyrs who perished there (see Christians and the Colosseum). However there is no historical evidence to support Benedict's claim, nor is there even any evidence that anyone prior to the 16th century suggested this might be the case; the Catholic Encyclopedia concludes that there are no historical grounds for the supposition. Later popes initiated various stabilization and restoration projects, removing the extensive vegetation which had overgrown the structure and threatened to damage it further. The façade was reinforced with triangular brick wedges in 1807 and 1827, and the interior was repaired in 1831, 1846 and in the 1930s. The arena substructure was partly excavated in 1810–1814 and 1874 and was fully exposed under Benito Mussolini in the 1930s.

The Colosseum is today one of Rome's most popular tourist attractions, receiving millions of visitors annually. The effects of pollution and general deterioration over time prompted a major restoration programme carried out between 1993 and 2000, at a cost of 40 billion Italian lire ($19.3m / €20.6m at 2000 prices). In recent years it has become a symbol of the international campaign against capital punishment, which was abolished in Italy in 1948. Several anti–death penalty demonstrations took place in front of the Colosseum in 2000. Since that time, as a gesture against the death penalty, the local authorities of Rome change the color of the Colosseum's night time illumination from white to gold whenever a person condemned to the death penalty anywhere in the world gets their sentence commuted or is released,[16] or if a jurisdiction abolishes the death penalty. Most recently, the Colosseum was illuminated in gold when capital punishment was abolished in the American state of New Mexico in April 2009.

Because of the ruined state of the interior, it is impractical to use the Colosseum to host large events; only a few hundred spectators can be accommodated in temporary seating. However, much larger concerts have been held just outside, using the Colosseum as a backdrop. Performers who have played at the Colosseum in recent years have included Ray Charles (May 2002),[18] Paul McCartney (May 2003),[19] Elton John (September 2005),[20] and Billy Joel (July 2006).

Exterior

Unlike earlier Greek theatres that were built into hillsides, the Colosseum is an entirely free-standing structure. It derives its basic exterior and interior architecture from that of two Roman theatres back to back. It is elliptical in plan and is 189 meters (615 ft / 640 Roman feet) long, and 156 meters (510 ft / 528 Roman feet) wide, with a base area of 6 acres (24,000 m2). The height of the outer wall is 48 meters (157 ft / 165 Roman feet). The perimeter originally measured 545 meters (1,788 ft / 1,835 Roman feet). The central arena is an oval 87 m (287 ft) long and 55 m (180 ft) wide, surrounded by a wall 5 m (15 ft) high, above which rose tiers of seating.

The outer wall is estimated to have required over 100,000 cubic meters (131,000 cu yd) of travertine stone which were set without mortar held together by 300 tons of iron clamps.[12] However, it has suffered extensive damage over the centuries, with large segments having collapsed following earthquakes. The north side of the perimeter wall is still standing; the distinctive triangular brick wedges at each end are modern additions, having been constructed in the early 19th century to shore up the wall. The remainder of the present-day exterior of the Colosseum is in fact the original interior wall.

The surviving part of the outer wall's monumental façade comprises three stories of superimposed arcades surmounted by a podium on which stands a tall attic, both of which are pierced by windows interspersed at regular intervals. The arcades are framed by half-columns of the Tuscan, Ionic, and Corinthian orders, while the attic is decorated with Corinthian pilasters.[21] Each of the arches in the second- and third-floor arcades framed statues, probably honoring divinities and other figures from Classical mythology.

Two hundred and forty mast corbels were positioned around the top of the attic. They originally supported a retractable awning, known as the velarium, that kept the sun and rain off spectators. This consisted of a canvas-covered, net-like structure made of ropes, with a hole in the center.[3] It covered two-thirds of the arena, and sloped down towards the center to catch the wind and provide a breeze for the audience. Sailors, specially enlisted from the Roman naval headquarters at Misenum and housed in the nearby Castra Misenatium, were used to work the velarium.[22]

The Colosseum's huge crowd capacity made it essential that the venue could be filled or evacuated quickly. Its architects adopted solutions very similar to those used in modern stadiums to deal with the same problem. The amphitheatre was ringed by eighty entrances at ground level, 76 of which were used by ordinary spectators.[3] Each entrance and exit was numbered, as was each staircase. The northern main entrance was reserved for the Roman Emperor and his aides, whilst the other three axial entrances were most likely used by the elite. All four axial entrances were richly decorated with painted stucco reliefs, of which fragments survive. Many of the original outer entrances have disappeared with the collapse of the perimeter wall, but entrances XXIII (23) to LIV (54) still survive.[12]

Spectators were given tickets in the form of numbered pottery shards, which directed them to the appropriate section and row. They accessed their seats via vomitoria (singular vomitorium), passageways that opened into a tier of seats from below or behind. These quickly dispersed people into their seats and, upon conclusion of the event or in an emergency evacuation, could permit their exit within only a few minutes. The name vomitoria derived from the Latin word for a rapid discharge, from which English derives the word vomit.

Interior

According to the Codex-Calendar of 354, the Colosseum could accommodate 87,000 people, although modern estimates put the figure at around 50,000. They were seated in a tiered arrangement that reflected the rigidly stratified nature of Roman society. Special boxes were provided at the north and south ends respectively for the Emperor and the Vestal Virgins, providing the best views of the arena. Flanking them at the same level was a broad platform or podium for the senatorial class, who were allowed to bring their own chairs. The names of some 5th century senators can still be seen carved into the stonework, presumably reserving areas for their use.

The tier above the senators, known as the maenianum primum, was occupied by the non-senatorial noble class or knights (equites). The next level up, the maenianum secundum, was originally reserved for ordinary Roman citizens (plebians) and was divided into two sections. The lower part (the immum) was for wealthy citizens, while the upper part (the summum) was for poor citizens. Specific sectors were provided for other social groups: for instance, boys with their tutors, soldiers on leave, foreign dignitaries, scribes, heralds, priests and so on. Stone (and later marble) seating was provided for the citizens and nobles, who presumably would have brought their own cushions with them. Inscriptions identified the areas reserved for specific groups.

Another level, the maenianum secundum in legneis, was added at the very top of the building during the reign of Domitian. This comprised a gallery for the common poor, slaves and women. It would have been either standing room only, or would have had very steep wooden benches. Some groups were banned altogether from the Colosseum, notably gravediggers, actors and former gladiators.

Each tier was divided into sections (maeniana) by curved passages and low walls (praecinctiones or baltei), and were subdivided into cunei, or wedges, by the steps and aisles from the vomitoria. Each row (gradus) of seats was numbered, permitting each individual seat to be exactly designated by its gradus, cuneus, and number.

The arena itself was 83 meters by 48 meters (272 ft by 157 ft / 280 by 163 Roman feet).[12] It comprised a wooden floor covered by sand (the Latin word for sand is harena or arena), covering an elaborate underground structure called the hypogeum (literally meaning "underground"). Little now remains of the original arena floor, but the hypogeum is still clearly visible. It consisted of a two-level subterranean network of tunnels and cages beneath the arena where gladiators and animals were held before contests began. Eighty vertical shafts provided instant access to the arena for caged animals and scenery pieces concealed underneath; larger hinged platforms, called hegmata, provided access for elephants and the like. It was restructured on numerous occasions; at least twelve different phases of construction can be seen.[12]

The hypogeum was connected by underground tunnels to a number of points outside the Colosseum. Animals and performers were brought through the tunnel from nearby stables, with the gladiators' barracks at the Ludus Magnus to the east also being connected by tunnels. Separate tunnels were provided for the Emperor and the Vestal Virgins to permit them to enter and exit the Colosseum without needing to pass through the crowds.[12]

Substantial quantities of machinery also existed in the hypogeum. Elevators and pulleys raised and lowered scenery and props, as well as lifting caged animals to the surface for release. There is evidence for the existence of major hydraulic mechanisms[12] and according to ancient accounts, it was possible to flood the arena rapidly, presumably via a connection to a nearby aqueduct.

The Colosseum and its activities supported a substantial industry in the area. In addition to the amphitheatre itself, many other buildings nearby were linked to the games. Immediately to the east is the remains of the Ludus Magnus, a training school for gladiators. This was connected to the Colosseum by an underground passage, to allow easy access for the gladiators. The Ludus Magnus had its own miniature training arena, which was itself a popular attraction for Roman spectators. Other training schools were in the same area, including the Ludus Matutinus (Morning School), where fighters of animals were trained, plus the Dacian and Gallic Schools.

Also nearby were the Armamentarium, comprising an armory to store weapons; the Summum Choragium, where machinery was stored; the Sanitarium, which had facilities to treat wounded gladiators; and the Spoliarium, where bodies of dead gladiators were stripped of their armor and disposed of.

Around the perimeter of the Colosseum, at a distance of 18 m (59 ft) from the perimeter, was a series of tall stone posts, with five remaining on the eastern side. Various explanations have been advanced for their presence; they may have been a religious boundary, or an outer boundary for ticket checks, or an anchor for the velarium or awning.

Right next to the Colosseum is also the Arch of Constantine.

he Colosseum was used to host gladiatorial shows as well as a variety of other events. The shows, called munera, were always given by private individuals rather than the state. They had a strong religious element but were also demonstrations of power and family prestige, and were immensely popular with the population. Another popular type of show was the animal hunt, or venatio. This utilized a great variety of wild beasts, mainly imported from Africa and the Middle East, and included creatures such as rhinoceros, hippopotamuses, elephants, giraffes, aurochs, wisents, barbary lions, panthers, leopards, bears, caspian tigers, crocodiles and ostriches. Battles and hunts were often staged amid elaborate sets with movable trees and buildings. Such events were occasionally on a huge scale; Trajan is said to have celebrated his victories in Dacia in 107 with contests involving 11,000 animals and 10,000 gladiators over the course of 123 days.

During the early days of the Colosseum, ancient writers recorded that the building was used for naumachiae (more properly known as navalia proelia) or simulated sea battles. Accounts of the inaugural games held by Titus in AD 80 describe it being filled with water for a display of specially trained swimming horses and bulls. There is also an account of a re-enactment of a famous sea battle between the Corcyrean (Corfiot) Greeks and the Corinthians. This has been the subject of some debate among historians; although providing the water would not have been a problem, it is unclear how the arena could have been waterproofed, nor would there have been enough space in the arena for the warships to move around. It has been suggested that the reports either have the location wrong, or that the Colosseum originally featured a wide floodable channel down its central axis (which would later have been replaced by the hypogeum).[12]

Sylvae or recreations of natural scenes were also held in the arena. Painters, technicians and architects would construct a simulation of a forest with real trees and bushes planted in the arena's floor. Animals would be introduced to populate the scene for the delight of the crowd. Such scenes might be used simply to display a natural environment for the urban population, or could otherwise be used as the backdrop for hunts or dramas depicting episodes from mythology. They were also occasionally used for executions in which the hero of the story — played by a condemned person — was killed in one of various gruesome but mythologically authentic ways, such as being mauled by beasts or burned to death.

The Colosseum today is now a major tourist attraction in Rome with thousands of tourists each year paying to view the interior arena, though entrance for EU citizens is partially subsidised, and under-18 and over-65 EU citizens' entrances are free.[24] There is now a museum dedicated to Eros located in the upper floor of the outer wall of the building. Part of the arena floor has been re-floored. Beneath the Colosseum, a network of subterranean passageways once used to transport wild animals and gladiators to the arena opened to the public in summer 2010.[25]

The Colosseum is also the site of Roman Catholic ceremonies in the 20th and 21st centuries. For instance, Pope Benedict XVI leads the Stations of the Cross called the Scriptural Way of the Cross (which calls for more meditation) at the Colosseum[26][27] on Good Fridays.

In the Middle Ages, the Colosseum was clearly not regarded as a sacred site. Its use as a fortress and then a quarry demonstrates how little spiritual importance was attached to it, at a time when sites associated with martyrs were highly venerated. It was not included in the itineraries compiled for the use of pilgrims nor in works such as the 12th century Mirabilia Urbis Romae ("Marvels of the City of Rome"), which claims the Circus Flaminius — but not the Colosseum — as the site of martyrdoms. Part of the structure was inhabited by a Christian order, but apparently not for any particular religious reason.

It appears to have been only in the 16th and 17th centuries that the Colosseum came to be regarded as a Christian site. Pope Pius V (1566–1572) is said to have recommended that pilgrims gather sand from the arena of the Colosseum to serve as a relic, on the grounds that it was impregnated with the blood of martyrs. This seems to have been a minority view until it was popularised nearly a century later by Fioravante Martinelli, who listed the Colosseum at the head of a list of places sacred to the martyrs in his 1653 book Roma ex ethnica sacra.

Martinelli's book evidently had an effect on public opinion; in response to Cardinal Altieri's proposal some years later to turn the Colosseum into a bullring, Carlo Tomassi published a pamphlet in protest against what he regarded as an act of desecration. The ensuing controversy persuaded Pope Clement X to close the Colosseum's external arcades and declare it a sanctuary, though quarrying continued for some time.

At the instance of St. Leonard of Port Maurice, Pope Benedict XIV (1740–1758) forbade the quarrying of the Colosseum and erected Stations of the Cross around the arena, which remained until February 1874. St. Benedict Joseph Labre spent the later years of his life within the walls of the Colosseum, living on alms, prior to his death in 1783. Several 19th century popes funded repair and restoration work on the Colosseum, and it still retains a Christian connection today. Crosses stand in several points around the arena and every Good Friday the Pope leads a Via Crucis procession to the amphitheatre.

 

Coliseu (Colosseo)

A seguir, um texto, em português, da Wikipédia, a enciclopédia livre:

 

O Coliseu, também conhecido como Anfiteatro Flaviano, deve seu nome à expressão latina Colosseum (ou Coliseus, no latim tardio), devido à estátua colossal de Nero, que ficava perto a edificação. Localizado no centro de Roma, é uma excepção de entre os anfiteatros pelo seu volume e relevo arquitectónico. Originalmente capaz de albergar perto de 50 000 pessoas, e com 48 metros de altura, era usado para variados espetáculos. Foi construído a leste do fórum romano e demorou entre 8 a 10 anos a ser construído.

O Coliseu foi utilizado durante aproximadamente 500 anos, tendo sido o último registro efetuado no século VI da nossa era, bastante depois da queda de Roma em 476. O edifício deixou de ser usado para entretenimento no começo da era medieval, mas foi mais tarde usado como habitação, oficina, forte, pedreira, sede de ordens religiosas e templo cristão.

Embora esteja agora em ruínas devido a terremotos e pilhagens, o Coliseu sempre foi visto como símbolo do Império Romano, sendo um dos melhores exemplos da sua arquitectura. Actualmente é uma das maiores atrações turísticas em Roma e em 7 de julho de 2007 foi eleita umas das "Sete maravilhas do mundo moderno". Além disso, o Coliseu ainda tem ligações à igreja, com o Papa a liderar a procissão da Via Sacra até ao Coliseu todas as Sextas-feiras Santas.

O coliseu era um local onde seriam exibidos toda uma série de espectáculos, inseridos nos vários tipos de jogos realizados na urbe. Os combates entre gladiadores, chamados muneras, eram sempre pagos por pessoas individuais em busca de prestígio e poder em vez do estado. A arena (87,5 m por 55 m) possuía um piso de madeira, normalmente coberto de areia para absorver o sangue dos combates (certa vez foi colocada água na representação de uma batalha naval), sob o qual existia um nível subterrâneo com celas e jaulas que tinham acessos diretos para a arena; Alguns detalhes dessa construção, como a cobertura removível que poupava os espectadores do sol, são bastante interessantes, e mostram o refinamento atingido pelos construtores romanos. Formado por cinco anéis concêntricos de arcos e abóbadas, o Coliseu representa bem o avanço introduzido pelos romanos à engenharia de estruturas. Esses arcos são de concreto (de cimento natural) revestidos por alvenaria. Na verdade, a alvenaria era construída simultaneamente e já servia de forma para a concretagem. Outro tipo de espetáculos era a caça de animais, ou venatio, onde eram utilizados animais selvagens importados de África. Os animais mais utilizados eram os grandes felinos como leões, leopardos e panteras, mas animais como rinocerontes, hipopótamos, elefantes, girafas, crocodilos e avestruzes eram também utilizados. As caçadas, tal como as representações de batalhas famosas, eram efetuadas em elaborados cenários onde constavam árvores e edifícios amovíveis.

Estas últimas eram por vezes representadas numa escala gigante; Trajano celebrou a sua vitória em Dácia no ano 107 com concursos envolvendo 11 000 animais e 10 000 gladiadores no decorrer de 123 dias.

Segundo o documentário produzido pelo canal televisivo fechado, History Channel, o Coliseu também era utilizado para a realização de naumaquias, ou batalhas navais. O coliseu era inundado por dutos subterrâneos alimentados pelos aquedutos que traziam água de longe. Passada esta fase, foi construída uma estrutura, que é a que podemos ver hoje nas ruínas do Coliseu, com altura de um prédio de dois andares, onde no passado se concentravam os gladiadores, feras e todo o pessoal que organizava os duelos que ocorreriam na arena. A arena era como um grande palco, feito de madeira, e se chama arena, que em italiano significa areia, porque era jogada areia sob a estrutura de madeira para esconder as imperfeições. Os animais podiam ser inseridos nos duelos a qualquer momento por um esquema de elevadores que surgiam em alguns pontos da arena; o filme "Gladiador" retrata muito bem esta questão dos elevadores. Os estudiosos, há pouco tempo, descobriram uma rede de dutos inundados por baixo da arena do Coliseu. Acredita-se que o Coliseu foi construído onde, outrora, foi o lago do Palácio Dourado de Nero; O imperador Vespasiano escolheu o local da construção para que o mal causado por Nero fosse esquecido por uma construção gloriosa.

Sylvae, ou recreações de cenas naturais eram também realizadas no Coliseu. Pintores, técnicos e arquitectos construiriam simulações de florestas com árvores e arbustos reais plantados no chão da arena. Animais seriam então introduzidos para dar vida à simulação. Esses cenários podiam servir só para agrado do público ou como pano de fundo para caçadas ou dramas representando episódios da mitologia romana, tão autênticos quanto possível, ao ponto de pessoas condenadas fazerem o papel de heróis onde eram mortos de maneiras horríveis mas mitologicamente autênticas, como mutilados por animais ou queimados vivos.

Embora o Coliseu tenha funcionado até ao século VI da nossa Era, foram proibidos os jogos com mortes humanas desde 404, sendo apenas massacrados animais como elefantes, panteras ou leões.

O Coliseu era sobretudo um enorme instrumento de propaganda e difusão da filosofia de toda uma civilização, e tal como era já profetizado pelo monge e historiador inglês Beda na sua obra do século VII "De temporibus liber": "Enquanto o Coliseu se mantiver de pé, Roma permanecerá; quando o Coliseu ruir, Roma ruirá e quando Roma cair, o mundo cairá".

A construção do Coliseu foi iniciada por Vespasiano, nos anos 70 da nossa era. O edifício foi inaugurado por Tito, em 80, embora apenas tivesse sido finalizado poucos anos depois. Empresa colossal, este edifício, inicialmente, poderia sustentar no seu interior cerca de 50 000 espectadores, constando de três andares. Aquando do reinado de Alexandre Severo e Gordiano III, é ampliado com um quarto andar, podendo suster agora cerca de 90 000 espectadores. A grandiosidade deste monumento testemunha verdadeiramente o poder e esplendor de Roma na época dos Flávios.

Os jogos inaugurais do Coliseu tiveram lugar ano 80, sob o mandato de Tito, para celebrar a finalização da construção. Depois do curto reinado de Tito começar com vários meses de desastres, incluindo a erupção do Monte Vesúvio, um incêndio em Roma, e um surto de peste, o mesmo imperador inaugurou o edifício com uns jogos pródigos que duraram mais de cem dias, talvez para tentar apaziguar o público romano e os deuses. Nesses jogos de cem dias terão ocorrido combates de gladiadores, venationes (lutas de animais), execuções, batalhas navais, caçadas e outros divertimentos numa escala sem precedentes.

O Coliseu, como não se encontrava inserido numa zona de encosta, enterrado, tal como normalmente sucede com a generalidade dos teatros e anfiteatros romanos, possuía um “anel” artificial de rocha à sua volta, para garantir sustentação e, ao mesmo tempo, esta substrutura serve como ornamento ao edifício e como condicionador da entrada dos espectadores. Tal como foi referido anteriormente, possuía três pisos, sendo mais tarde adicionado um outro. É construído em mármore, pedra travertina, ladrilho e tufo (pedra calcária com grandes poros). A sua planta elíptica mede dois eixos que se estendem aproximadamente de 190 m por 155 m. A fachada compõe-se de arcadas decoradas com colunas dóricas, jónicas e coríntias, de acordo com o pavimento em que se encontravam. Esta subdivisão deve-se ao facto de ser uma construção essencialmente vertical, criando assim uma diversificação do espaço.

 

Os assentos eram em mármore e a cavea, escadaria ou arquibancada, dividia-se em três partes, correspondentes às diferentes classes sociais: o podium, para as classes altas; as maeniana, sector destinado à classe média; e os portici, ou pórticos, construídos em madeira, para a plebe e as mulheres. O pulvinar, a tribuna imperial, encontrava-se situada no podium e era balizada pelos assentos reservados aos senadores e magistrados. Rampas no interior do edifício facilitavam o acesso às várias zonas de onde podiam visualizar o espectáculo, sendo protegidos por uma barreira e por uma série de arqueiros posicionados numa passagem de madeira, para o caso de algum acidente. Por cima dos muros ainda são visíveis as mísulas, que sustentavam o velarium, enorme cobertura de lona destinada a proteger do sol os espectadores e, nos subterrâneos, ficavam as jaulas dos animais, bem como todas as celas e galerias necessárias aos serviços do anfiteatro.

O monumento permaneceu como sede principal dos espetáculos da urbe romana até ao período do imperador Honorius, no século V. Danificado por um terremoto no começo do mesmo século, foi alvo de uma extensiva restauração na época de Valentinianus III. Em meados do século XIII, a família Frangipani transformou-o em fortaleza e, ao longo dos séculos XV e XVI, foi por diversas vezes saqueado, perdendo grande parte dos materiais nobres com os quais tinha sido construído.

Os relatos romanos referem-se a cristãos sendo martirizados em locais de Roma descritos pouco pormenorizadamente (no anfiteatro, na arena...), quando Roma tinha numerosos anfiteatros e arenas. Apesar de muito provavelmente o Coliseu não ter sido utilizado para martírios, o Papa Bento XIV consagrou-o no século XVII à Paixão de Cristo e declarou-o lugar sagrado. Os trabalhos de consolidação e restauração parcial do monumento, já há muito em ruínas, foram feitos sobretudo pelos pontífices Gregório XVI e Pio IX, no século XIX.

Avec ses milliers d'années d'études, l'Homme est encore difficilement capable de reproduire ce que d'autres êtres vivants font d'instinct...

 

With its thousands of years of study, humans are still hardly able to reproduce what other living beings instinctively do ...

 

Ford, America’s truck leader, introduces the new 2018 Ford F-150 – now even tougher, even smarter and even more capable than ever.

The Muli is extreme capable off-road, due to its new suspension/steering system.

Originally developed by Kuka, the Muli features four Robotic arms, actuated by new mechanical artificial muscles to move across the terrain. This greatly increases the vehicles reliability and maintenance-cycles.

capable of causing death and destruction. Or give life as in operation manna.

The VL- 650 Partisan is a light military, single-engine, low-wing single-seat aircraft capable of performing fighter, close air support, and counter insurgency (COIN) missions.

 

Please watch this and many other fantastic creations here: www.flickr.com/photos/einon/

 

The pilot is accommodated in an enclosed, heated and ventilated cockpit with adjustable seats. The cockpit canopy slides backwards to open. The landing gear retracts backwards under the wings. Rubber dampers provide shock absorption, and hydraulic brakes are used for wheel braking.

 

The aircraft was specially designed for low-altitude missions against day and night visible ground targets in a broad area. Its readily available to be loaded with weapons and supplied through a flexible system of auxiliary airfields that required no special preparations, especially in mountainous regions. Therefore, the Partisan can also take-off from short unprepared runways, even ones covered in deep snow when fitted with skis. The aircraft is also slightly armoured, being capable to survive shell impacts up to 20mm.

The Partisan was intended for close ground force support, and it can also be used for training of pilots in visual day/night flights, aiming, missile firing and bombing of ground targets.

Permanent armament comprises two wing-mounted 20mm cannons and one 37mm anti-tank engine mounted cannon. It can also use rockets, guided and unguided bombs, external guns and air to air missiles.

 

General characteristics

Crew: 1

Length: 8.03 m

Wingspan: 10.54 m

Height: 3.10 m

Wing area: 21.0 m²

Empty weight: 1030 kg

Max. takeoff weight: 4224 kg

Powerplant: 1 × V-435 Turboprop; (2 000hp)

Performance

Maximum speed: 695 km/h at 1,500 m (5,000 ft)

Cruise speed: 310 km/h

Stall speed: 40 km/h

Range: 800 km

Armament

Guns: One 37mm cannon engine mounted; Two 20mm guns on the wings.

Guns: 2 externals pods with two 12,7mm (0´50) machine guns.

Rockets: 2 FS-1000 rocket pods with 18 90mm rockets each or 2 rocket pods with 4 152mm rockets each or 4 simple 152mm anti-tank guided rockets.

Missiles: 2 defensive air to air AA-2020 Valkyria missiles;

Bombs: Maximum – 2 500kg guided or unguided bombs.

 

Hope you like it!

Please watch this and many other fantastic creations here: www.flickr.com/photos/einon/

Please fav or comment!

 

Eínon

HMS Queen Elizabeth (R08) is the lead ship of the Queen Elizabeth class of aircraft carriers, the largest warships ever built for the Royal Navy of the United Kingdom and capable of carrying up to 60 aircraft.[18] She is named in honour of the first Queen Elizabeth, a renowned World War I era super-dreadnought, which in turn was named after Queen Elizabeth I. This latest Queen Elizabeth will carry her namesake's honours, as well as her Tudor rose-adorned crest and motto.

 

The ship began sea trials in June 2017, and was commissioned on 7 December 2017. Her first Commanding Officer was Commodore Jerry Kyd, who had previously commanded the carriers Ark Royal and Illustrious.

 

Queen Elizabeth has no catapults or arrestor wires and is instead designed to operate V/STOL aircraft. The air wing will typically consist of F-35B Lightning II multirole fighters and Merlin helicopters for airborne early warning and anti-submarine warfare. The design emphasises flexibility, with accommodation for 250 Royal Marines and the ability to support them with attack helicopters and large troop transports such as Chinooks. She is the second Royal Navy vessel to bear the name Queen Elizabeth and is based at HMNB Portsmouth.

 

Seen leaving Portsmouth Harbour on Sunday 10 June 2018.

 

History:

Name: HMS Queen Elizabeth

Namesake: HMS Queen Elizabeth

Operator: Royal Navy

Ordered: 20 May 2008

Builder: Aircraft Carrier Alliance

Cost:

Programme cost: £6.1 billion

Unit cost: £3 billion

Laid down: 7 July 2009

Launched: 17 July 2014

Sponsored by: HM Queen Elizabeth II

Christened: 4 July 2014

Completed: 7 December 2017

Commissioned: 7 December 2017

In service: 2020 (planned)

Homeport: HMNB Portsmouth

Identification:

Pennant number: R08

Deck code: Q

IMO number: 4907892

ITU callsign: GQLZ

Motto: Semper Eadem ("Always the Same")

 

General characteristics:

Class and type: Queen Elizabeth-class aircraft carrier

Displacement: 65,000 tonnes (64,000 long tons; 72,000 short tons)

Length: 280 m (920 ft)

Beam:

39 m (128 ft) (waterline)

73 m (240 ft) overall

Draught: 11 m (36 ft)

Propulsion: Integrated Electric Propulsion via Two Rolls-Royce Marine 36 MW MT30 gas turbine alternators and four 10 MW diesel engines.

Speed: 25 knots (46 km/h)

Range: 10,000 nautical miles (19,000 km)

Capacity: 1,600

Troops: 250

Complement: 679

Sensors and

processing systems:

S1850M long range radar

Type 997 Artisan 3D medium range radar

Ultra Electronics Series 2500 Electro Optical System (EOS)

Armament:

3 x Phalanx CIWS

4 x 30mm calibre gun, various Miniguns and GPMGs to counter asymmetric threats.

Aircraft carried:

Planned Carrier Air Wing of 24 to 36 STOVL fighter jets & 14 helicopters.

F-35B Lightning II.

Chinook.

Apache AH MK1.

Merlin HM2 and HC4.

Wildcat AH1 and HMA2.

Merlin Crowsnest AEW.

Aviation facilities:

Hangar below deck.

Two aircraft lifts.

Ski jump.

 

Citroen's charming 2CV had established itself as a supremely capable car for the masses, offering affordable transportation to farmers and city-dwellers alike. Over rutted fields, muddy roads or cobblestone streets, the "Deux Chevaux" was nearly unstoppable, but there were still places even an experienced 2CV driver feared to tread. Enter the Citroen 2CV 4x4 Sahara, the world's first dual-engine 4x4 vehicle; just 694 were built, and less than 30 survive today.

Though suitable for use anywhere the pavement ended, the Sahara was designed and constructed to tackle its namesake desert, an environment where redundancy wasn’t just a good idea, but potentially the difference between life and death. French mining and oil exploration companies had a strong presence in North Africa, and the need for a lightweight and relatively inexpensive vehicle capable of traversing sand dunes or mountains was apparent. The 2CV Sahara was designed and built for these customers, though it also proved popular with the Spanish Guardia Civil and the Israeli National Park Authority.

 

1:43rd Scale model by Vitesse.

The Blackburn Buccaneer is a British carrier-capable attack aircraft designed in the 1950s for the Royal Navy (RN). Designed and initially produced by Blackburn Aircraft at Brough, it was later officially known as the Hawker Siddeley Buccaneer when Blackburn became a part of the Hawker Siddeley Group, but this name is rarely used.

 

The Buccaneer was originally designed in response to the Soviet Union's Sverdlov-class cruiser construction programme. Instead of building a new fleet of its own, the Royal Navy could use the Buccaneer to attack these ships by approaching at low altitudes below the ship's radar horizon. The Buccaneer could attack using a nuclear bomb, or conventional weapons. It was later intended to carry short-range anti-shipping missiles to improve its survivability against more modern ship-based anti-aircraft weapons.

 

The Buccaneer entered Royal Navy service in 1962. The initial production aircraft suffered a series of accidents due to insufficient engine power, which was quickly addressed in the Buccaneer S.2, equipped with more powerful Rolls-Royce Spey jet engines. The Buccaneer was also offered as a possible solution for the Royal Air Force (RAF) requirement for a supersonic interdictor carrying nuclear weapons. It was rejected as not meeting the specification in favour of the much more advanced supersonic BAC TSR-2, but the cost of the TSR-2 programme led to its cancellation, only to be followed by the cancellation of its selected replacement, the General Dynamics F-111K. The RAF purchased Buccaneers and American Phantom IIs as TSR-2 substitutes, the Buccaneer entering service in 1969.

 

The Royal Navy retired the last of its large aircraft carriers in 1978, moving their strike role to the British Aerospace Sea Harrier, and passing their Buccaneers to the RAF. After a crash in 1980 revealed metal fatigue problems, the RAF fleet was reduced to 60 aircraft, while the rest were scrapped. The ending of the Cold War led to a reduction in strength of the RAF, and the accelerated retirement of the remaining fleet, with the last Buccaneers in RAF service being retired in 1994 in favour of the Panavia Tornado. The South African Air Force (SAAF) also procured the type. Buccaneers saw combat action in the first Gulf War of 1991, and the South African Border War.

 

XN974 was first built and flew as and S.1, but was later converted to a S.2 - she was the first S.2 off the production line making her first flight as an S.2 on the 5th June 1964. This was the only Buccaneer that flew both as an S.1 and S.2.

 

The airframe on to the Royal Aeronautical Establishment in Bedford for work trials and from there to HMS Eagle for sea trials. On her return flight from the USA after hot weather testing, she achieved a record from Goose Bay to Lossiemouth by becoming the first Fleet Air Arm aircraft to fly the transatlantic route non-stop without the support of re-fuelling.

+++ DISCLAIMER +++

Nothing you see here is real, even though the conversion or the presented background story might be based on historical facts. BEWARE!

  

Some background:

The Waffenträger (Weapon Carrier) VTS3 “Diana” was a prototype for a wheeled tank destroyer. It was developed by Thyssen-Henschel (later Rheinmetall) in Kassel, Germany, in the late Seventies, in response to a German Army requirement for a highly mobile tank destroyer with the firepower of the Leopard 1 main battle tank then in service and about to be replaced with the more capable Leopard 2 MBT, but less complex and costly. The main mission of the Diana was light to medium territorial defense, protection of infantry units and other, lighter, elements of the cavalry as well as tactical reconnaissance. Instead of heavy armor it would rather use its good power-to-weight ratio, excellent range and cross-country ability (despite the wheeled design) for defense and a computerized fire control system to accomplish this mission.

 

In order to save development cost and time, the vehicle was heavily based on the Spähpanzer Luchs (Lynx), a new German 8x8 amphibious reconnaissance armored fighting vehicle that had just entered Bundeswehr service in 1975. The all-wheel drive Luchs made was well armored against light weapons, had a full NBC protection system and was characterized by its extremely low-noise running. The eight large low-pressure tires had run-flat properties, and, at speeds up to about 50 km/h, all four axles could be steered, giving the relatively large vehicle a surprising agility and very good off-road performance. As a special feature, the vehicle was equipped with a rear-facing driver with his own driving position (normally the radio operator), so that the vehicle could be driven at full speed into both directions – a heritage from German WWII designs, and a tactical advantage when the vehicle had to quickly retreat from tactical position after having been detected. The original Luchs weighed less than 20 tons, was fully amphibious and could surmount water obstacles quickly and independently using propellers at the rear and the fold back trim vane at the front. Its armament was relatively light, though, a 20 mm Rheinmetall MK 20 Rh 202 gun in the turret that was effective against both ground and air targets.

 

The Waffenträger “Diana” used the Luchs’ hull and dynamic components as basis, and Thyssen-Henschel solved the challenge to mount a large and heavy 105 mm L7 gun with its mount on the light chassis through a minimalistic, unmanned mount and an autoloader. Avoiding a traditional manned and heavy, armored turret, a lot of weight and internal volume that had to be protected could be saved, and crew safety was indirectly improved, too. This concept had concurrently been tested in the form of the VTS1 (“Versuchsträger Scheitellafette #1) experimental tank in 1976 for the Kampfpanzer 3 development, which eventually led to the Leopard 2 MBT (which retained a traditional turret, though).

 

For the “Diana” test vehicle, Thyssen-Henschel developed a new low-profile turret with a very small frontal area. Two crew members, the commander (on the right side) and the gunner (to the left), were seated in/under the gun mount, completely inside of the vehicle’s hull. The turret was a very innovative construction for its time, fully stabilized and mounted the proven 105mm L7 rifled cannon with a smoke discharger. Its autoloader contained 8 rounds in a carousel magazine. 16 more rounds could be carried in the hull, but they had to be manually re-loaded into the magazine, which was only externally accessible. A light, co-axial 7,62mm machine gun against soft targets was available, too, as well as eight defensive smoke grenade mortars.

 

The automated L7 had a rate of fire of ten rounds per minute and could fire four types of ammunition: a kinetic energy penetrator to destroy armored vehicles; a high explosive anti-tank round to destroy thin-skinned vehicles and provide anti-personnel fragmentation; a high explosive plastic round to destroy bunkers, machine gun and sniper positions, and create openings in walls for infantry to access; and a canister shot for use against dismounted infantry in the open or for smoke charges. The rounds to be fired could be pre-selected, so that the gun was able to automatically fire a certain ammunition sequence, but manual round selection was possible at any time, too.

 

In order to take the new turret, the Luchs hull had to be modified. Early calculations had revealed that a simple replacement of the Luchs’ turret with the new L7 mount would have unfavorably shifted the vehicle’s center of gravity up- and forward, making it very nose-heavy and hard to handle in rough terrain or at high speed, and the long barrel would have markedly overhung the front end, impairing handling further. It was also clear that the additional weight and the rise of the CoG made amphibious operations impossible - a fate that met the upgraded Luchs recce tanks in the Eighties, too, after several accidents with overturned vehicles during wading and drowned crews. With this insight the decision was made to omit the vehicle’s amphibious capability, save weight and complexity, and to modify the vehicle’s layout considerably to optimize the weight distribution.

 

Taking advantage of the fact that the Luchs already had two complete driver stations at both ends, a pair of late-production hulls were set aside in 1977 and their internal layout reversed. The engine bay was now in the vehicle’s front, the secured ammunition storage was placed next to it, behind the separate driver compartment, and the combat section with the turret mechanism was located behind it. Since the VTS3s were only prototypes, only minimal adaptations were made. This meant that the driver was now located on the right side of the vehicle, while and the now-rear-facing secondary driver/radio operator station ended up on the left side – much like a RHD vehicle – but this was easily accepted in the light of cost and time savings. As a result, the gun and its long, heavy barrel were now located above the vehicle’s hull, so that the overall weight distribution was almost neutral and overall dimensions remained compact.

 

Both test vehicles were completed in early 1978 and field trials immediately started. While the overall mobility was on par with the Luchs and the Diana’s high speed and low noise profile was highly appreciated, the armament was and remained a source of constant concern. Shooting in motion from the Diana turned out to be very problematic, and even firing from a standstill was troublesome. The gun mount and the vehicle’s complex suspension were able to "hold" the recoil of the full-fledged 105-mm tank gun, which had always been famous for its rather large muzzle energy. But when fired, even in the longitudinal plane, the vehicle body fell heavily towards the stern, so that the target was frequently lost and aiming had to be resumed – effectively negating the benefit from the autoloader’s high rate of fire and exposing the vehicle to potential target retaliation. Firing to the side was even worse. Several attempts were made to mend this flaw, but neither the addition of a muzzle brake, stronger shock absorbers and even hydro-pneumatic suspension elements did not solve the problem. In addition, the high muzzle flames and the resulting significant shockwave required the infantry to stay away from the vehicle intended to support them. The Bundeswehr also criticized the too small ammunition load, as well as the fact that the autoloader magazine could not be re-filled under armor protection, so that the vehicle had to retreat to safe areas to re-arm and/or to adapt to a new mission profile. This inherent flaw not only put the crew under the hazards of enemy fire, it also negated the vehicle’s NBC protection – a serious issue and likely Cold War scenario. Another weak point was the Diana’s weight: even though the net gain of weight compared with the Luchs was less than 3 tons after the conversion, this became another serious problem that led to the Diana’s demise: during trials the Bundeswehr considered the possibility to airlift the Diana, but its weight (even that of the Luchs, BTW) was too much for the Luftwaffe’s biggest own transport aircraft, the C-160 Transall. Even aircraft from other NATO members, e.g. the common C-130 Hercules, could hardly carry the vehicle. In theory, equipment had to be removed, including the cannon and parts of its mount.

 

Since the tactical value of the vehicle was doubtful and other light anti-tank weapons in the form of the HOT anti-tank missile had reached operational status, so that very light vehicles and even small infantry groups could now effectively fight against full-fledged enemy battle tanks from a safe distance, the Diana’s development was stopped in 1988. Both VTS3 prototypes were mothballed, stored at the Bundeswehr Munster Training Area camp and are still waiting to be revamped as historic exhibits alongside other prototypes like the Kampfpanzer 70 in the German Tank Museum located there, too.

  

Specifications:

Crew: 4 (commander, driver, gunner, radio operator/second driver)

Weight: 22.6 t

Length: 7.74 m (25 ft 4 ¼ in)

Width: 2.98 m ( 9 ft 9 in)

Height: XXX

Ground clearance: 440 mm (1 ft 4 in)

Suspension: hydraulic all-wheel drive and steering

 

Armor:

Unknown, but sufficient to withstand 14.5 mm AP rounds

 

Performance:

Speed: 90 km/h (56 mph) on roads

Operational range: 720 km (445 mi)

Power/weight: 13,3 hp/ton with petrol, 17,3 hp/ton with diesel

 

Engine:

1× Daimler Benz OM 403A turbocharged 10-cylinder 4-stroke multi-fuel engine,

delivering 300 hp with petrol, 390 hp with diesel

 

Armament:

1× 105 mm L7 rifled gun with autoloader (8 rounds ready, plus 16 in reserve)

1× co-axial 7.92 mm M3 machine gun with 2.000 rounds

Two groups of four Wegmann 76 mm smoke mortars

  

The kit and its assembly:

I have been a big Luchs fan since I witnessed one in action during a public Bundeswehr demo day when I was around 10 years old: a huge, boxy and futuristic vehicle with strange proportions, gigantic wheels, water propellers, a mind-boggling mobility and all of this utterly silent. Today you’d assume that this vehicle had an electric engine – spooky! So I always had a soft spot for it, and now it was time and a neat occasion to build a what-if model around it.

 

This fictional wheeled tank prototype model was spawned by a leftover Revell 1:72 Luchs kit, which I had bought some time ago primarily for the turret, used in a fictional post-WWII SdKfz. 234 “Puma” conversion. With just the chassis left I wondered what other use or equipment it might take, and, after several weeks with the idea in the back of my mind, I stumbled at Silesian Models over an M1128 resin conversion set for the Trumpeter M1126 “Stryker” 8x8 APC model. From this set as potential donor for a conversion the prototype idea with an unmanned turret was born.

 

Originally I just planned to mount the new turret onto the OOB hull, but when playing with the parts I found the look with an overhanging gun barrel and the bigger turret placed well forward on the hull goofy and unbalanced. I was about to shelf the idea again, until I recognized that the Luchs’ hull is almost symmetrical – the upper hull half could be easily reversed on the chassis tub (at least on the kit…), and this would allow much better proportions. From this conceptual change the build went straightforward, reversing the upper hull only took some minor PSR. The resin turret was taken mostly OOB, it only needed a scratched adapter to fit into the respective hull opening. I just added a co-axial machine gun fairing, antenna bases (from the Luchs kit, since they could, due to the long gun barrel, not be attached to the hull anymore) and smoke grenade mortars (also taken from the Luchs).

 

An unnerving challenge became the Luchs kit’s suspension and drive train – it took two days to assemble the vehicle’s underside alone! While this area is very accurate and delicate, the fact that almost EVERY lever and stabilizer is a separate piece on four(!) axles made the assembly a very slow process. Just for reference: the kit comes with three and a half sprues. A full one for the wheels (each consists of three parts, and more than another one for suspension and drivetrain!

Furthermore, the many hull surface details like tools or handles – these are more than a dozen bits and pieces – are separate, very fragile and small (tiny!), too. Cutting all these wee parts out and cleaning them was a tedious affair, too, plus painting them separately.

Otherwise the model went together well, but it’s certainly not good for quick builders and those with big fingers and/or poor sight.

  

Painting and markings:

The paint scheme was a conservative choice; it is a faithful adaptation of the Bundeswehr’s NATO standard camouflage for the European theatre of operations that was introduced in the Eighties. It was adopted by many armies to confuse potential aggressors from the East, so that observers could not easily identify a vehicle and its nationality. It consists of a green base with red-brown and black blotches, in Germany it was executed with RAL tones, namely 6031 (Bronze Green), 8027 (Leather Brown) and 9021 (Tar Black). The pattern was standardized for each vehicle type and I stuck to the official Luchs pattern, trying to adapt it to the new/bigger turret. I used Revell acrylic paints, since the authentic RAL tones are readily available in this product range (namely the tones 06, 65 and 84). The big tires were painted with Revell 09 (Anthracite).

 

Next the model was treated with a highly thinned washing with black and red-brown acrylic paint, before decals were applied, taken from the OOB sheet and without unit markings, since the Diana would represent a test vehicle. After sealing them with a thin coat of clear varnish the model was furthermore treated with lightly dry-brushed Revell 45 and 75 to emphasize edges and surface details, and the separately painted hull equipment was mounted. The following step was a cloudy treatment with watercolors (from a typical school paintbox, it’s great stuff for weathering!), simulating dust residue all over the hull. After a final protective coat with matt acrylic varnish I finally added some mineral artist pigments to the lower hull areas and created mud crusts on the wheels through light wet varnish traces into which pigments were “dusted”.

  

Basically a simple project, but the complex Luchs kit with its zillion of wee bits and pieces took time and cost some nerves. However, the result looks pretty good, and the Stryker turret blends well into the overall package. Not certain how realistic the swap of the Luchs’ internal layout would have been, but I think that the turret moved to the rear makes more sense than the original forward position? After all, the model is supposed to be a prototype, so there’s certainly room for creative freedom. And in classic Bundeswehr colors, the whole thing even looks pretty convincing.

 

This pair of extremely capable parent brought up not 1 not 2 not 3 but 4 little ones in a tiny little nest. Not all fledged at the same time. The parents never leave any of their chick behind. They continue to feed the last remaining one until he was ready to leave the nest 2 days later than its siblings. .

@jurong eco gardens, sg

+++ DISCLAIMER +++

Nothing you see here is real, even though the conversion or the presented background story might be based historical facts. BEWARE!

 

The English Electric Lightning was a supersonic jet fighter aircraft of the Cold War era, noted for its great speed. It was the only all-British Mach 2 fighter aircraft and the first aircraft in the world capable of supercruise. The Lightning was renowned for its capabilities as an interceptor; pilots commonly described it as "being saddled to a skyrocket". Following English Electric's integration into the unified British Aircraft Corporation, the aircraft was marketed as the BAC Lightning.

 

The Lightning was prominently used by the Royal Air Force, but also by Saudi Arabia, Kuwait and Singapore. The first aircraft to enter service with the RAF, three pre-production P.1Bs, arrived at RAF Coltishall in Norfolk on 23 December 1959, and from there the aircraft was permanently developed further.

 

The F.6 was the ultimate Lightning version to see British service. Originally, it was nearly identical to the former F.3A (which introduced a large ventral tank and new cambered wings), with the exception that it had provisions to carry 260 gal (1,180 l) ferry tanks on pylons over the wings. These tanks were jettisonable in an emergency, and gave the F.6 a substantially improved deployment capability. The Ferranti A.I.23B radar supported autonomous search, automatic target tracking, and ranging for all weapons, while the pilot attack sight provided gyroscopically derived lead angle and backup stadiametric ranging for gun firing. The radar and gunsight were collectively designated the AIRPASS: Airborne Interception Radar and Pilot Attack Sight System. Combined with the Red Top missile, the system offered a limited forward hemisphere attack capability.

 

There remained one glaring shortcoming of the late Lightning versions, though: the lack of cannon. This was finally rectified in the form of a modified ventral tank with two ADEN cannon mounted in the front. The addition of the cannon and their ammunition decreased the tank's fuel capacity from 610 gal to 535 gal (2,430 l), but the cannon made the F.6 a 'real fighter' again.

 

Singapore's Lightnings came as a bargain, as they had been taken over directly from RAF stocks. In 1967 No. 74 'Tiger' Squadron was moved to RAF Tengah in Singapore to take over the air defense role from the Gloster Javelin equipped 64 Squadron. When 74 Squadron was disbanded in September 1971, following the withdrawal of British forces from Singapore (in the course of the "East of Suez" campaign, which already started in 1968), Tengah Air Base and many other RAF sites like Seletar, Sembawang and Changi as well as the RAF air defense radar station and Bloodhound II surface-to-air missiles were handed over to the SADC, Singapore’s Air Defense Command, which was suddenly entrusted with a huge responsibility and resources.

 

Anyway, in order to fulfill its aerial defense role, Singapore's air force lacked a potent interceptor, and so it was agreed with the RAF that 74 Squadron would leave fourteen Lightnings (twelve F.6 fighters and two T.5 trainers behind, while the rest was transferred to Akrotiri, Cyprus, where the RAF aircraft were integrated into 56 Squadron.

 

The ex-RAF Lightnings, however, immediately formed the small country's quick alert interceptor backbone and were grouped into the newly established 139th Squadron, “Swifts”. The small squadron kept its base at Tengah, as a sister unit to 140th Squadron which operated the Hawker Hunter FGA.74 in the fighter role since 1971.

 

Singapore's Lightnings differed slightly from the RAF F.6: In order to minimize the maintenance costs of this specialized aircraft, the SADC decided to drop the Red Top missile armament. The Red Top gave all-weather capability, but operating this standalone system for just a dozen of aircraft was deemed cost-inefficient. Keeping the high-performance Lightnings airworthy was already costly and demanding enough.

 

As a cost-effective measure, all SADC Lightnings were modified to carry four AIM-9B and later E Sidewinder AAMs on special, Y-shaped pylons, not unlike those used on the US Navy's F-8 Crusader. In order to enhance all-weather capability, an AAS-15 IRST sensor was added, located in a fairing in front of the wind shield. Its electronics used the space of the omitted, fuselage-mounted cannons of the F.6 variant.

 

Long range and loitering time were only of secondary relevance, so that the Singaporean Lightnings typically carried two 30 mm ADEN cannons with 120 RPG in the lower fuselage, which reduced the internal fuel capacity slightly but made the Lightning a true close combat fighter with high agility, speed and rate of climb. Since the RSAF interceptors would only engage in combat after direct visual contact and target identification, the Sidewinders' short range was no operational problem - and because that missile type was also in use with RSAF's Hawker Hunters, this solution was very cost-efficient.

 

The F.6's ability to carry the overwing ferry tanks (the so-called 'Overburgers') was retained, though, as well as the refueling probe and, and with its modified/updated avionics the RSAF Lightnings received the local designations of F.6S and T.5S. They were exclusively used in the interceptor role and retained their natural metal finish all though their service career.

 

In 1975, the SADC was eventually renamed into ‘Republic of Singapore Air Force’ (RSAF), and the aircraft received appropriate markings.

 

The RSAF Lightnings saw an uneventful career. One aircraft was lost due to hydraulic failure in August 1979 (the pilot ejected safely), and when in 1983 RSAF's F-5S fighters took over the duties of airborne interception from the Royal Australian Air Force's Mirage IIIOs detachment stationed at Tengah, all remaining RSAF Lightnings were retired and phased out of service in March 1984 and scrapped. The type's global career did not last much longer: the last RAF Lightnings were retired in 1988 and replaced by the Panavia Tornado ADV.

  

BAE Lightning F.6S general characteristics

Crew: 1

Length: 55 ft 3 in (16.8 m)

Wingspan: 34 ft 10 in (10.6 m)

Height: 19 ft 7 in (5.97 m)

Wing area: 474.5 ft² (44.08 m²)

Empty weight: 31,068 lb (14.092 kg)

Max. take-off weight: 45,750 lb (20.752 kg)

 

Powerplant:

2× Rolls-Royce Avon 301R afterburning turbojets with 12,530 lbf (55.74 kN) dry thrust each and 16,000 lbf (71.17 kN) with afterburner

 

Performance:

Maximum speed: Mach 2.0 (1.300 mph/2.100 km/h) at 36.000 ft.

Range: 850 mi (1.370 km) Supersonic intercept radius: 155 mi (250 km)

Ferry range: 920 mi (800 NM/ 1.660 km) 1,270 mi (1.100 NM/ 2.040 km) with ferry tanks

Service ceiling: 54.000 ft (16.000 m); zoom ceiling >70.000 ft

Rate of climb: 20.000 ft/min (100 m/s)

Wing loading: 76 lb/ft² (370 kg/m²)

Thrust/weight: 0.78

 

Armament:

2× under-fuselage hardpoints for mounting air-to-air missiles (2 or 4 AIM-9 Sidewinder)

Optional, but typically fitted: 2× 30 mm (1.18 in) ADEN cannons with 120 RPG in the lower fuselage, reducing the ventral tank's fuel capacity from 610 gal to 535 gal (2,430 l)

2× overwing pylon stations for 260 gal ferry tanks

    

The kit and its assembly

The inspiration to this whiffy Lightning came through fellow user Nick at whatifmodelers.com (credits go to him), who brought up the idea of EE/BAC Lightnings in Singapore use: such a small country would be the ideal user of this fast interceptor with its limited range. I found the idea very convincing and plausible, and since I like the Lightning and its unique design very much, I (too) had to make one for the 2013 group build "Asiarama" - even if a respective model would potentially be built twice. But it's always fun to see how the same theme is interpreted by different modelers, I am looking forward to my creation's sister ship.

 

The kit is the Matchbox Lightning F.2A/F.6 (PK-114) from 1976, and only little was changed. Fit is O.K., building the model poses no real problems. But the kit needs some putty work at the fuselage seams, and the many raised panel lines (esp. at the belly tank) and other relatively fine and many details for a Matchbox kit make sanding rather hazardous. Nevertheless, it's a solid kit. A bit toy-like, yes, but good value for the relatively little money. What's saved might be well invested into an extra decal sheet (see below).

 

Internal mods include some added details inside of the cockpit and the landing gear wells, but these were just enhancements to the original parts. The Avons' afterburners were simulated with implanted sprocket wheels from a 1:72 Panzer IV - not intended to be realistic at all, but IMO better than the kit's original, plain end caps!

 

Externally…

· the flaps were lowered

· some antennae and a finer pitot added

· about a dozen small air intakes/outlets were added (cut from styrene) or drilled open

· the IRST sensor fairing added, sculpted from a simple piece of sprue

· a pair of 30mm barrels mounted in the lower fuselage (hollow steel needles)

· the scratch-built quadruple Sidewinder rails are worth mentioning

 

The AIM-9E missiles come from the scrap heap, I was lucky to find a matching set of four. The optional overwing fuel tanks were not fitted, as this was supposed to become a "standard RSAF aircraft". I also did not opt for (popular) weapons mounted above the wings, since this would have called for modifications of the F.6 which did not appear worthwhile to me in context with the envisaged RSAF use. Switching to four Sidewinders on the fuselage hardpoints was IMHO enough.

  

Painting and markings

More effort went into this project part. The end of RAF's 74 Squadron at Tengah and the return of the Lightnings to Europe opened a nice historical window for my whif. Since the Tiger Squadron's aircraft sported a natural metal finish, partly with black fins (accidentally, the Matchbox kit offers just the correct decal/painting option), I decided that the RSAF would keep their aircraft this way: without camouflage, just RSAF markings, with some bold and highly visible colors added.

A SEA scheme (as on the RSAF Hunters, Strikemasters of Skyhawks) would have been another serious option and certainly look weird on a Lightning, as well as a three-tone gray wraparound low-viz scheme as used on the F-5E/S fighters, plausible in the 80ies onwards.

 

Testors Aluminum Metallizer was used as basic color, but several other shades including Steel and Titanium Metallizer, Testors normal Aluminum enamel paint, Humbrol 11 and 56 as well as Revell Aqua Color Aluminum were used for selected surface portions or panels all around the hull.

 

The spine including the cockpit frame was painted black. Using RSAF's 140 Squadron's colors as a benchmark, the fin received a checkered decoration in black and red, reminiscent of RAF 56 Squadron Lightnings. This was created through a black, painted base, onto which decals - every red field was cut from a red surface sheet from TL Modellbau - were transferred. Sounds horrible, but it was easier and more exact than expected. A very convenient solution with sharp edges and good contrast. A red trim line, 1mm wide, was added as a decal along the spine in a similar fashion.

 

The squadron emblem on the Lightning's nose was created through the same scratch method: from colored 1.5mm wide stripes, 3mm pieces were cut and applied one by one to form the checkered bar. The swift emblem comes from a 1:48 sheet for French WWI aircraft, made by Peddinghaus Decals from Germany. The overall look was supposed to be similar to the (real) 140 Squadron badge.

 

As a consequence, this created a logical problem: where to put the national roundel? Lightnings usually wore them on the nose, but unlike RAF style (where a bar was added around the roundel), I used RSAF Hunters as benchmark.

The RSAF roundels were a challenge. In order not to cramp the nose section too much I decided to place the roundels behind the wings. Not the must prominent position, but plausible. I originally wanted to use decals from the current 1:72 Airfix BAC Strikemaster kit, but they turned out to be too small.

After long search I was happy to find a 1:48 aftermarket decal sheet from Morgan Decals for an A-4S, with full color yin-yang roundels - in Canada! It took three weeks to wait for these parts, though, even though work had to wait for this final but vital detail !

 

As a side not, AFAIK any RSAF aircraft only carried and carries these roundels on the fuselage sides, not on the wings' upper or lower surfaces? It leaves the model a bit naked, so I decided to add 'RSAF' letters and the tactical code '237' to the wings' upper and lower sides. But the fin is surely bold enough to compensate ;)

 

The cockpit interior was painted in Medium Sea Gray (Humbrol 27), the landing gear and the wells in a mix of Humbrol 56 and 34, for a light gray with a metallic shimmer.

 

Other details include the white area behind the cockpit, which contained an AVPIN/isopropyl nitrate tank for the Lightning's start engine. Hazardous stuff - the light color was to prevent excessive heating in the sun, a common detail for Lightnings used in Cyprus. Another piece that took some effort was the shaggy nose cone, which was painted in a mix of Humbrol 56 and 86 and received some serious dry painting in light gray and ochre.

 

Stencils etc. were taken from an extensive aftermarket sheet for Lightnings from Xtradecal (X72096). The Matchbox decal sheet of PK-114 just offers the ejection seat warning triangles - that's all! The later T.55 kit is much better in this regard, but still far from being complete.

 

After decal application and to enhance the metallic look, the kit received a careful rubbing with finely grinded graphite, which, as a side effect, also emphasized the raised panel lines. A little dry painting was done around some exhaust openings, but nothing to make the aircraft look really old. This is supposed to be a bright and well-maintained interceptor!

 

Finally, the kit received a thin coat with glossy acrylic varnish, the spine and fin received a semi-matt coat and the black glare shield in front of the cockpit became matt.

   

A pretty straightforward build for the Asiarama group build, and with best regards and credits to Nick who came up with the original idea. Most work went into the decals and the NMF finish. I like the bold colors, and despite being flamboyant, they do not make the Lightning look too far out of place?

 

As a final note: XR773 never ended up in Singapore service, just like any BAC Lightning. In real life, the aircraft (first flight was in February 1966 with Roly Beamont at the controls) was transferred from 74 Squadron at RAF Tengah to Akrotiri in late 1971 and had a pretty long life, further serving with 56, 5 and 11 Squadrons as well as the Lightning Training Flight. And even then it’s life was far from over: XR773 is one of the Lightning survivors; in South Africa it flew in private hands as ZU-BEW until 2010, when it was grounded and the airframe put up to sale.

How can God create a creature so capable of perfect unconditional love and loyalty and then give it such a short life span? Today our hearts are broken as we say goodbye to Maya. She is the best.

 

She was instinctively a herding dog and her favorite thing to herd is me. Almost every day she were gently take my hand into her mouth and lead me to the kitchen pantry which just happens to be where we keep the treats. And then she would point at the door just in case I didn't remember where they were kept. And then she would just stare at me with those big brown eyes until I caved and gave her a biscuit. How could I ever refuse?

+++ DISCLAIMER +++

Nothing you see here is real, even though the conversion or the presented background story might be based historical facts. BEWARE!

 

Some background

The Focke Wulf Ta 338 originated as a response of request by the RLM in mid 1943 for an aircraft capable of vertical takeoff and landing (VTOL), optimized for the interceptor and point defense role and without a hazardous liquid rocket engine as means of propulsion. In the course of the year, several German manufacturers responded with a multitude of highly innovative if not unusual design, including Heinkel with the ducted fan project "Lerche", Rheinmetall-Borsig with a jet-powered tailsitter, and Focke Wulf. This company’s engineering teams submitted two designs: the revolutionary "Triebflügel" concept and the more conservative, yet still futuristic "P.03.10338" tail sitter proposal, conceived by Focke Wulf’s leading engineer Kurt Tank and Walter Kappus from BMW, responsible for the engine development.

 

The P.03.10338 was based on the proven Fw 190 fighter, but the similarities were only superficial. Only the wings and a part of the fuselage structure around the cockpit would be used, but Tank assumed that using existing parts and tools would appreciably reduce development and production time.

A great part of the fuselage structure had to be re-designed to accommodate a powerful BMW 803 engine and its integral gearbox for an eight-bladed contraprop.

 

The BMW 803 was BMW's attempt to build a high-output aircraft engine, primarily for heavy bombers, by basically "coupling" two BMW 801 engines back-to-back into a single and very compact power unit. The result was a 28-cylinder, four-row radial engine, each comprising a multiple-bank in-line engine with two cylinders in each bank, which, due to cooling concerns, were liquid cooled.

 

This arrangement was from the start intended to drive independent contra-rotating propellers, in order to avoid stiffness problems with the whole engine driving just a single crankshaft and also to simply convert the raw power of this unit into propulsion. The front half of the engine drove the front propeller directly, while the rear engine drove a number of smaller shafts that passed between the cylinders of the front engine before being geared back together to drive the rear prop. This complex layout resulted in a rather large and heavy gearbox on the front of the engine, and the front engine needing an extended shaft to "clear" that gearbox. The four-row 803 engine weighed 2,950 kg (6,490 lb) dry and 4,130 kg (9,086 lb) fully loaded, and initial versions delivered 3,900 PS (3,847 hp; 2,868 kW).

 

While the engine was heavy and there were alternatives with a better weight/output ratio (e. g. the Jumo 222), the BMW 803 was favored for this project because it was the most powerful engine available, and it was relatively compact so that it could be fitted into a fighter's airframe. On the P.03.10338 it drove an all-metal, eight-blade contraprop with a diameter of 4,25 m (13 ft 11 in).

 

In order to accept this massive engine, the P.03.10338’s structure had to be stiffened and the load-bearing structures re-arranged. The aircraft kept the Fw 190's wing structure and surface, but the attachment points at the fuselage had to be moved for the new engine mount, so that they ended up in mid position. The original space for the Fw 190's landing gear was used for a pair of radiator baths in the wings' inner leading edge, the port radiator catering to the front engine half while the radiator on starboard was connected with the rear half. An additional annular oil and sodium cooler for the gearbox and the valve train, respectively, was mounted in the fuselage nose.

 

The tail section was completely re-designed. Instead of the Fw 190's standard tail with fin and stabilizers the P.03.10338’s tail surfaces were a reflected cruciform v-tail (forming an x) that extended above and below the fuselage. On the four fin tips, aerodynamic bodies carried landing pads while the fuselage end contained an extendable landing damper. The pilot sat in a standard Fw 190 cockpit, and the aircraft was supposed to start and land vertically from a mobile launch pad. In the case of an emergency landing, the lower stabilizers could be jettisoned. Nor internal armament was carried, instead any weaponry was to be mounted under the outer wings or the fuselage, in the form of various “Rüstsätze” packages.

 

Among the many exotic proposals to the VTOL fighter request, Kurt Tank's design appeared as one of the most simple options, and the type received the official RLM designation Ta 338. In a rush of urgency (and maybe blinded by clever Wunderwaffen marketing from Focke Wulf’s side), a series of pre-production aircraft was ordered instead of a dedicated prototype, which was to equip an Erprobungskommando (test unit, abbreviated “EK”) that would evaluate the type and develop tactics and procedures for the new fighter.

 

Fueled by a growing number of bomber raids over Germany, the “EK338” was formed as a part of JG300 in August 1944 in Schönwalde near Berlin, but it took until November 1944 that the first Ta 338 A-0 machines were delivered and made operational. These initial eight machines immediately revealed several flaws and operational problems, even though the VTOL concept basically worked and the aircraft flew well – once it was in the air and cruising at speeds exceeding 300 km/h (186 mph).

 

Beyond the many difficulties concerning the aircraft’s handling (esp. the landing was hazardous), the lack of a landing gear hampered ground mobility and servicing. Output of the BMW 803 was sufficient, even though the aircraft had clear limits concerning the take-off weight, so that ordnance was limited to only 500 kg (1.100 lb). Furthermore, the noise and the dust kicked up by starting or landing aircraft was immense, and servicing the engine or the weapons was more complicated than expected through the high position of many vital and frequently tended parts.

 

After three Ta 338 A-0 were lost in accidents until December 1944, a modified version was ordered for a second group of the EK 338. This led to the Ta 338 A-1, which now had shorter but more sharply swept tail fins that carried single wheels and an improved suspension under enlarged aerodynamic bodies.

This machine was now driven by an improved BMW 803 A-2 that delivered more power and was, with an MW-50 injection system, able to produce a temporary emergency output of 4.500 hp (3.308 kW).

 

Vertical start was further assisted by optional RATO units, mounted in racks at the rear fuselage flanks: either four Schmidding SG 34 solid fuel booster rockets, 4.9 kN (1,100 lbf) thrust each, or two larger 9.8 kN (2,203 lbf) solid fuel booster rockets, could be used. These improvements now allowed a wider range of weapons and equipment to be mounted, including underwing pods with unguided rockets against bomber pulks and also a conformal pod with two cameras for tactical reconnaissance.

 

The hazardous handling and the complicated maintenance remained the Ta 338’s Achilles heel, and the tactical benefit of VTOL operations could not outbalance these flaws. Furthermore, the Ta 338’s range remained very limited, as well as the potential firepower. Four 20mm or two 30mm cannons were deemed unsatisfactory for an interceptor of this class and power. And while bundles of unguided missiles proved to be very effective against large groups of bombers, it was more efficient to bring these weapons with simple and cheap vehicles like the Bachem Ba 349 Natter VTOL rocket fighter into target range, since these were effectively “one-shot” weapons. Once the Ta 338 fired its weapons it had to retreat unarmed.

 

In mid 1945, in the advent of defeat, further tests of the Ta 338 were stopped. I./EK338 was disbanded in March 1945 and all machines retreated from the Eastern front, while II./EK338 kept defending the Ruhrgebiet industrial complex until the Allied invasion in April 1945. Being circled by Allied forces, it was not possible to evacuate or destroy all remaining Ta 338s, so that at least two more or less intact airframes were captured by the U.S. Army and later brought to the United States for further studies.

  

General characteristics:

Crew: 1

Length/height on the ground: 10.40 m (34 ft 2 in)

Wingspan: 10.50 m (34 ft 5 in)

Fin span: 4:07 m (13 ft 4 in)

Wing area: 18.30 m² (196.99 ft²)

Empty weight: 11,599 lb (5,261 kg)

Loaded weight: 16,221 lb (7,358 kg)

Max. takeoff weight: 16,221 lb (7,358 kg)

 

Powerplant:

1× BMW 803 A-2 28-cylinder, liquid-cooled four-row radial engine,

rated at 4.100 hp (2.950 kW) and at 4.500 hp (3.308 kW) with emergency boost.

4x Schmidding SG 34 solid fuel booster rockets, 4.9 kN (1,100 lbf) thrust each, or

2x 9.8 kN (2,203 lbf) solid fuel booster rockets

 

Performance:

Maximum speed: 860 km/h (534 mph)

Cruise speed: 650 km/h (403 mph)

Range: 750 km (465 ml)

Service ceiling: 43,300 ft (13,100 m)

Rate of climb: 10,820 ft/min (3,300 m/min)

Wing loading: 65.9 lb/ft² (322 kg/m²)

 

Armament:

No internal armament, any weapons were to be mounted on three hardpoints (one under the fuselage for up to 1.000 kg (2.200 lb) and two under the outer wings, 500 kg (1.100 lb) each. Total ordnance was limited to 1.000 kg (2.200 lb).

 

Various armament and equipment sets (Rüstsätze) were tested:

R1 with 4× 20 mm (.79 in) MG 151/20 cannons

R2 with 2x 30 mm (1.18 in) MK 213C cannons

R3 with 48x 73 mm (2.874 in) Henschel Hs 297 Föhn rocket shells

R4 with 66x 55 mm (2.165 in) R4M rocket shells

R5 with a single 1.000 kg (2.200 lb) bomb under the fuselage

R6 with an underfuselage pod with one Rb 20/20 and one Rb 75/30 topographic camera

  

The kit and its assembly:

This purely fictional kitbashing is a hardware tribute to a highly inspiring line drawing of a Fw 190 VTOL tailsitter – actually an idea for an operational RC model! I found the idea, that reminded a lot of the Lockheed XFV-1 ‘Salmon’ prototype, just with Fw 190 components and some adaptations, very sexy, and so I decided on short notice to follow the urge and build a 1:72 version of the so far unnamed concept.

 

What looks simple (“Heh, it’s just a Fw 190 with a different tail, isn’t it?”) turned out to become a major kitbashing. The basis was a simple Hobby Boss Fw 190 D-9, chose because of the longer tail section, and the engine would be changed, anyway. Lots of work followed, though.

 

The wings were sliced off and moved upwards on the flanks. The original tail was cut off, and the cruciform fins are two pairs of MiG-21F stabilizers (from an Academy and Hasegawa kit), outfitted with reversed Mk. 84 bombs as aerodynamic fairings that carry four small wheels (from an 1:144 T-22M bomber) on scratched struts (made from wire).

 

The cockpit was taken OOB, only a pilot figure was cramped into the seat in order to conceal the poor interior detail. The engine is a bash from a Ju 188’s BMW 801 cowling and the original Fw 190 D-9’s annular radiator as well as a part of its Jumo 213 cowling. BMW 801 exhaust stubs were inserted, too, and the propeller comes from a 1:100 VEB Plasticart Tu-20/95 bomber.

 

Since the BMW 803 had liquid cooling, radiators had to go somewhere. The annular radiator would certainly not have been enough, so I used the space in the wings that became available through the deleted Fw 190 landing gear (the wells were closed) for additional radiators in the wings’ leading edges. Again, these were scratched with styrene profiles, putty and some very fine styrene mesh.

 

As ordnance I settled for a pair of gun pods – in this case these are slipper tanks from a Hobby Boss MiG-15, blended into the wings and outfitted with hollow steel needles as barrels.

  

Painting and markings:

Several design options were possible: all NMF with some colorful markings or an overall RLM76 finish with added camouflage. But I definitively went for a semi-finished look, inspired by late WWII Fw 190 fighters.

 

For instance, the wings’ undersides were partly left in bare metal, but the rudders painted in RLM76 while the leading edges became RLM75. This color was also taken on the wings’ upper sides, with RLM82 thinly painted over. The fuselage is standard RLM76, with RLM82 and 83 on the upper side and speckles on the flanks. The engine cowling became NMF, but with a flashy ‘Hartmann Tulpe’ decoration.

 

Further highlights are the red fuselage band (from JG300 in early 1945) and the propeller spinner, which received a red tip and segments in black and white on both moving propeller parts. Large red “X”s were used as individual aircraft code – an unusual Luftwaffe practice but taken over from some Me 262s.

 

After a light black ink wash some panel shading and light weathering (e.g. exhaust soot, leaked oil, leading edges) was done, and the kit sealed under matt acrylic varnish.

  

Building this “thing” on the basis of a line drawing was real fun, even though challenging and more work than expected. I tried to stay close to the drawing, the biggest difference is the tail – the MiG-21 stabilizers were the best option (and what I had at hand as donation parts), maybe four fins from a Hawker Harrier or an LTV A-7 had been “better”, but now the aircraft looks even faster. ;)

Besides, the Ta 338 is so utterly Luft ’46 – I am curious how many people might take this for real or as a Hydra prop from a contemporary Captain America movie…

+++ DISCLAIMER +++

Nothing you see here is real, even though the conversion or the presented background story might be based on authentic facts. BEWARE!

  

Some background:

The VF-1 was developed by Stonewell/Bellcom/Shinnakasu for the U.N. Spacy by using alien Overtechnology obtained from the SDF-1 Macross alien spaceship. Its production was preceded by an aerodynamic proving version of its airframe, the VF-X. Unlike all later VF vehicles, the VF-X was strictly a jet aircraft, built to demonstrate that a jet fighter with the features necessary to convert to Battroid mode was aerodynamically feasible. After the VF-X's testing was finished, an advanced concept atmospheric-only prototype, the VF-0 Phoenix, was flight-tested from 2005 to 2007 and briefly served as an active-duty fighter from 2007 to the VF-1's rollout in late 2008, while the bugs were being worked out of the full-up VF-1 prototype (VF-X-1).

 

The space-capable VF-1's combat debut was on February 7, 2009, during the Battle of South Ataria Island - the first battle of Space War I - and remained the mainstay fighter of the U.N. Spacy for the entire conflict. Introduced in 2008, the VF-1 would be out of frontline service just five years later, though.

 

The VF-1 proved to be an extremely capable craft, successfully combating a variety of Zentraedi mecha even in most sorties which saw UN Spacy forces significantly outnumbered. The versatility of the Valkyrie design enabled the variable fighter to act as both large-scale infantry and as air/space superiority fighter. The signature skills of U.N. Spacy ace pilot Maximilian Jenius exemplified the effectiveness of the variable systems as he near-constantly transformed the Valkyrie in battle to seize advantages of each mode as combat conditions changed from moment to moment.

 

The basic VF-1 was deployed in four minor variants (designated A, D, J, and S) and its success was increased by continued development of various enhancements including the GBP-1S "Armored" Valkyrie, FAST Pack "Super" Valkyrie and the additional RÖ-X2 heavy cannon pack weapon system for the VF-1S for additional firepower.

The FAST Pack system was designed to enhance the VF-1 Valkyrie variable fighter, and the initial V1.0 came in the form of conformal pallets that could be attached to the fighter’s leg flanks for additional fuel – primarily for Long Range Interdiction tasks in atmospheric environment. Later FAST Packs were designed for space operations.

 

The following FAST Pack 2.0 system featured two 120.000 kg class P&W+EF-2001 booster thrusters (mounted on the dorsal section of the VF-1) and two CTB-04 conformal propellant/coolant tanks (mounted on the leg/engines), since the VF-1's internal tanks could not carry enough propellant to achieve a stable orbit from Earth bases and needed the help of a booster pack to reach Low Earth Orbit. Anyway, the FAST Pack 2.0 wasn't adapted for atmospheric use, due to its impact on a Valkyrie's aerodynamics and its weight; as such, it needed to be discarded before atmospheric entry.

Included in the FAST Pack boosters and conformal tanks were six high-maneuverability vernier thrusters and two low-thrust vernier thrusters beneath multipurpose hook/handles in two dorsal-mounted NP-BP-01, as well as ten more high-maneuverability vernier thrusters and two low-thrust vernier thrusters beneath multipurpose hook/handles in the two leg/engine-mounted NP-FB-01 systems.

Granting the VF-1 a significantly increased weapons payload as well as greater fuel and thrust, Shinnakasu Heavy Industry's FAST Pack system 2.0 was in every way a major success in space combat. The first VF-1 equipped with FAST Packs was deployed in January 2010 for an interception mission.

Following first operational deployment and its effectiveness, the FAST Pack system was embraced enthusiastically by the U.N. Spacy and found wide use. By February 2010, there were already over 300+ so-called "Super Valkyries" stationed onboard the SDF-1 Macross alone.

 

The FAST Pack went through constant further development, including upgraded versions for late production and updated VF-1s (V3.0 and V4.0). Another addition to the early V2.0 variant of 2010 was the so-called “S-FAST Pack”. The S-FAST pack was originally developed at the Apollo lunar base, for the locally based VF-1 interceptor squadrons that were tasked with the defense of this important production and habitat site on the Moon, but it also found its way to other orbital stations and carriers.

 

Officially designated FAST Pack V2.1, the S-FAST Pack consisted of the standard pair of dorsal rocket boosters plus the pallets with additional maneuvering jets, sensors and weapons. The S-FAST pack added another pair of P&W+EF-2001 boosters under the inner wings, having the duty to give to fighter the power necessary to exit easily from the gravity of moons or little planets without atmosphere, and improve acceleration during combat situations. Range was also further extended, together with additional life support systems for prolonged deep space operations, or the case of emergency.

 

In order to accept the S-FAST pack and exploit its potential, the VF-1’s wings and inner wing attachment points had to be strengthened due to the additional load and propulsion. The use of the S-FAST pack also precluded the fighter from transforming into Battroid or Gerwalk mode – the underwing packs had to be jettisoned beforehand. The other standard FAST Pack 2.0 elements could still be carried, though.

 

The modfied Valkyries capable of accepting the S-FAST Pack received an additional “S” to their type designation – more than 100 VF-1s were converted or built in this deep space configuration until late 2011. Initial deployment of the S-FAST Pack was conducted through SVF-24 “Moon Shadows” in early 2010, a unit that was quickly disbanded, though, but re-formed as SVF-124 “Moon Shooters”, tasked with the defense of the lunar Apollo Base and several special missions.

 

After the end of Space War I, the VF-1 continued to be manufactured both in the Sol system and throughout the UNG space colonies. Although the VF-1 would eventually be replaced as the primary Variable Fighter of the U.N. Spacy by the more capable, but also much bigger, VF-4 Lightning III in 2020, a long service record and continued production after the war proved the lasting worth of the design.

 

The VF-1 was without doubt the most recognizable variable fighter of Space War I and was seen as a vibrant symbol of the U.N. Spacy even into the first year of the New Era 0001 in 2013. At the end of 2015 the final rollout of the VF-1 was celebrated at a special ceremony, commemorating this most famous of variable fighters. The VF-1 Valkryie was built from 2006 to 2013 with a total production of 5,459 VF-1 variable fighters with several variants (VF-1A = 5,093, VF-1D = 85, VF-1J = 49, VF-1S = 30, VF-1G = 12, VE-1 = 122, VT-1 = 68)

 

However, the fighter remained active in many second line units and continued to show its worthiness years later, e. g. through Milia Jenius who would use her old VF-1 fighter in defense of the colonization fleet - 35 years after the type's service introduction!

 

General characteristics:

All-environment variable fighter and tactical combat Battroid,

used by U.N. Spacy, U.N. Navy, U.N. Space Air Force

 

Accommodation:

Pilot only in Marty & Beck Mk-7 zero/zero ejection seat

Dimensions:

Fighter Mode:

Length 14.23 meters

Wingspan 14.78 meters (at 20° minimum sweep)

Height 3.84 meters

 

Battroid Mode:

Height 12.68 meters

Width 7.3 meters

Length 4.0 meters

Empty weight: 13.25 metric tons;

Standard T-O mass: 18.5 metric tons;

MTOW: 37.0 metric tons

 

Power Plant:

2x Shinnakasu Heavy Industry/P&W/Roice FF-2001 thermonuclear reaction turbine engines, output 650 MW each, rated at 11,500 kg in standard or in overboost (225.63 kN x 2)

4 x Shinnakasu Heavy Industry NBS-1 high-thrust vernier thrusters (1 x counter reverse vernier thruster nozzle mounted on the side of each leg nacelle/air intake, 1 x wing thruster roll control system on each wingtip);

18 x P&W LHP04 low-thrust vernier thrusters beneath multipurpose hook/handles

 

The S-FAST Pack added 4x P&W+EF-2001 booster thrusters with 120.000 kg each, plus a total of 28x P&W LHP04 low-thrust vernier thrusters

 

Performance:

Battroid Mode: maximum walking speed 160 km/h

Fighter Mode: at 10,000 m Mach 2.71; at 30,000+ m Mach 3.87

g limit: in space +7

Thrust-to-weight ratio: empty 3.47; standard T-O 2.49; maximum T-O 1.24

 

Design Features:

3-mode variable transformation; variable geometry wing; vertical take-off and landing; control-configurable vehicle; single-axis thrust vectoring; three "magic hand" manipulators for maintenance use; retractable canopy shield for Battroid mode and atmospheric reentry; option of GBP-1S system, atmospheric-escape booster, or FAST Pack system

 

Transformation:

Standard time from Fighter to Battroid (automated): under 5 sec.

Min. time from Fighter to Battroid (manual): 0.9 sec.

 

Armament:

2x internal Mauler RÖV-20 anti-aircraft laser cannon, firing 6,000 pulses per minute

1x Howard GU-11 55 mm three-barrel Gatling gun pod with 200 RPG, fired at 1,200 rds/min

 

4x underwing hard points for a wide variety of ordnance, including

12x AMM-1 hybrid guided multipurpose missiles (3/point), or

12x MK-82 LDGB conventional bombs (3/point), or

6x RMS-1 large anti-ship reaction missiles (2/outboard point, 1/inboard point), or

4x UUM-7 micro-missile pods (1/point) each carrying 15 x Bifors HMM-01 micro-missiles,

or a combination of above load-outs

 

The optional Shinnakasu Heavy Industry S-FAST Pack 2.1 augmentative space weapon system added:

6x micro-missiles in two NP-AR-01 micro-missile launcher pods (mounted rear-ward under center ventral section in Fighter mode or on lower arm sections in GERWALK/Battroid mode)

4x12 micro missiles in four HMMP-02 micro-missile launchers, one inside each booster pod

 

The kit and its assembly:

This VF-1 is another contribution to the “Old Kit” Group Build at whatifmodelers.com, running in late 2016. I am not certain about the moulds’ inception date, but since it is an ARII incarnation of this type of kit and even moulded in the early pastel green styrene, I’d think that it was produced in 1982 or 83.

 

Anyway, I love the Macross VF-1, IMHO a design masterpiece created by Shoji Kawamori and one of my favorite mecha designs ever, because it was created as a late 70ies style jet fighter that could transform into a robot in a secondary role. As a simple, purposeful military vehicle. And not like a flashy robot toy.

 

Effectively, this Super Valkyrie is a highly modified OOB kit with many donation parts, and this kit is a bit special, for several reasons. There are several 1:100 OOB kits with FAST Packs from ARII/Bandai available (and still around today), but these are normally only Battroids or Gerwalks with additional parts for the FAST kit conversion. The kit I used here is different: it is, after maybe 25 years of searching and building these kits, the #70 from the original production run. It is (so far!) the only Fighter mode kit with the additional FAST Pack parts! Must be rare, and I have never seen it in catalogues?

 

Until today, I converted my Super or Strike Valkyries from Gerwalk kits, a task that needs some improvisation esp. around the folded arms between the legs, and there’s no OOB option for an extended landing gear. The latter made this Fighter mode kit very attractive, even though the actual kit is pretty disappointing, and AFAIK this kit variant is only available as a VF-1S.

 

With the Super Valkyrie fighter kit you receive basically a Gerwalk with a standard fighter cockpit (which includes a front wheel well and an extended front wheel leg), plus extra parts. The leg/engine-mounted NP-FB-01 systems are less bulbous than the parts on the Gerwalk or Battroid kit, and the OOB dorsally mounted NP-BP-01 boosters are TINY, maybe 1:120 or even 1:144! WTF?

 

Further confusion: the kit includes a set of lower arm parts with integrated rocket launchers, but these are not necessary at all for the Fighter build?! As a kind of compensation there’s a new and exclusive element that simulates the folded arms under the ‘fuselage’ and which, as an added value, properly holds the hand gun under the fuselage. As a quirky flaw, though, the hand gun itself comes in the extended form for the Battroid/Gerwalk mode. For the fighter in flight mode, it has to be modified, but that’s easily done.

 

Anyway, with the potential option to build a Super Valkyrie with an extended landing gear, this was my route to go with this vintage kit. The Super Valkyrie already looks bulky with the FAST Pack added, but then I recently found the S-FAST Pack option with two more boosters under the wings – total overkill, but unique. And I had a spare pair of booster bulks in the stash (w/o their nozzles, though), as well as a complete pair of additional bigger standard FAST boosters that could replace the ridiculous OOB parts…

 

Building such a Super/Strike Valkyrie means building separate components, with a marriage of parts as one of the final steps. Consequently, cockpit, central fuselage with the wings and the air intakes, the folded stabilizer pack, the folded arms element with the handgun, the two legs and the four boosters plus other ordnance had to be built and painted separately.

 

Here and there, details were changed or added, e. g. a different head (a ‘J’ head for the flight leader’s aircraft with two instead of the rare, OOB ‘S’ variant with four laser cannon), covers for the main landing gear (the latter does not come with wells at all, but I did not scratch them since they are hardly recognizable when the kit is sitting on the ground), the typical blade aerials under the cockpit and the feet had to be modified internally to become truly ‘open’ jet exhausts.

 

The wing-mounted boosters received new nozzles and their front end was re-sculpted with 2C putty into a square shape, according to reference sketches. Not 100% exact, but the rest of the VF-1 isn’t either.

 

This VF-1 was also supposed to carry external ordnance and my first choice were four wing-mounted RMS-1 Anti-Ship Reaction Warheads, scratched from four 1.000 lb NATO bombs. But, once finished, I was not happy with them. So I looked for another option, and in a source book I found several laser-guided bombs and missiles, also for orbital use, and from this inspiration comes the final ordnance: four rocket-propelled kinetic impact projectiles. These are actually 1:72 JASDF LGB’s from a Hasegawa weapon set, sans aerodynamic steering surfaces and with rocket boosters added to the tail. Also not perfect, but their white color and sleek shape is a good counterpart to the FAST elements.

 

Experience from many former builds of this mecha kit family helped a lot, since the #70 kit is very basic and nothing really fits well. Even though there are not many major seams or large elements, PSR work was considerable. This is not a pleasant build, rather a fight with a lot of compromises and semi-accuracies.

Seriously, if you want a decent 1:100 VF-1, I’d rather recommend the much more modern WAVE kits (including more realistic proportions).

  

Painting and markings:

The paint scheme for this Super Valkyrie was settled upon before I considered the S-FAST Pack addition: U.N. Spacy’s SVF-124 is authentic, as well as its unique camouflage paint scheme.

The latter is a special scheme for the lunar environment where the unit was originally formed and based, with all-black undersides, a high, wavy waterline and a light grey upper surface, plus some medium grey trim and a few colorful US Navy style markings and codes.

 

My core reference is a ‘naked’ bread-and-butter VF-1A of SVF-124 in Fighter mode, depicted as a profile in a VF-1 source book from SoftBank Publishing. The colors for the FAST Pack elements are guesstimates and personal interpretations, though, since I could not find any reference for their look in this unit.

As a side note, another, later SVF-124 aircraft in a similar design is included as an option in a limited edition 1:72 VF-22S kit from Hasegawa, which is backed by CG pics in a VF-22 source book from Softbank, too.

Furthermore, SVF-124 finds mention in a Japanese modeler magazine, where the aforementioned VF-22S kit was presented in 2008. So there must be something behind the ‘Moon Shooters’ squadron.

 

According to the Hasegawa VF-22S’s painting instructions, the underside becomes black and the upper surfaces are to be painted with FS36270 (with some darker fields on the VF-22, though, similar to the USAF F-15 counter-shaded air superiority scheme, just a tad darker).

Due to the 1:100 scale tininess of my VF-1, I alternatively went for Revell 75 (RAL 7039), which is lighter and also has a brownish hue, so that the resulting aircraft would not look too cold and murky, and not resemble an USAF aircraft.

 

All FAST Pack elements were painted in a uniform dark grey (Humbrol 32), while some subtle decorative trim on the upper surfaces, e.g. the canopy frame, an anti-glare panel and a stripe behind the cockpit and decoration trim on the wings’ upper surfaces, was added with Revell 77 (RAL 7012). Overall, colors are rather dull, but IMHO very effective in the “landscape” this machine is supposed to operate, and the few colorful markings stand out even more!

 

The cockpit interior was painted in a bluish grey, with reddish brown seat cushions (late 70ies style!), and the landing gear became all white. For some added detail I painted the wings’ leading edges in a mustard tone (Humbrol 225, Mid Stone).

 

The kit received some weathering (black ink wash, drybrushing on panels) and extra treatment of the panel lines – even though the FAST Pack elements hide a lot of surface or obscure view.

 

More color and individuality came with the markings. The standard decals like stencils or the U.N. Spacy insignia come from the kit’s and some other VF-1s’ OOB sheets.

Based on the SVF-124 VF-1 profile and taking the basic design a bit further, I used dull red USAF 45° digits for the 2nd flight leader’s “200” modex and the Apollo Base’s code “MA” on the dorsal boosters. Some discreet red trim was also applied to the FAST Packs – but only a little.

 

Since all of SVF-124’s aircraft are rumored to carry personal markings, including nose art and similar decorations, I tried to give this VF-1JS a personal note: the pin-up badges on the dorsal boosters come from a Peddinghouse decal sheet for Allied WWII tanks, placed on a silver roundel base. Unfortunately (and not visible before I applied them) the pin-up decal was not printed on a white basis, so that the contrast on the silver is not very strong, but I left it that way. Additionally, the tagline “You’re a$$ next, Jerry” (which IS printed in opaque white…?) was added next to the artwork – but it’s so tiny that you have to get really close to decipher it at all…

 

Finally, after some soot stains around the exhausts and some vernier nozzels with graphite, the kit received a coat of matt acrylic varnish.

 

Building this vintage VF-1 kit took a while and a lot of effort, but I like the result: with the S-FAST Pack, the elegant VF-1 turned into a massive space fighter hulk! The normal Super Valkyries already look very compact and purposeful, but this here is truly menacing. Especially when standing on its own feet/landing gear, with its nose-down stance and the small, original wheels, this thing reminds of a Space Shuttle that had just landed.

 

Good that I recently built a simple VF-1 fighter as a warm-up session. ARII’s kit #70 is not a pleasant build, rather a fight with the elements and coupled with a lot of compromises – if you want a Super Valkyrie Fighter in 1:100, the much more modern WAVE kit is IMHO the better option (and actually not much more pricey than this vintage collector’s item). But for the vintage feeling, this exotic model kit was just the right ticket, and it turned, despite many weaknesses and rather corny details, into an impressive fighter. Esp. the lunar camouflage scheme looks odd, but very unique and purposeful.

 

Anyway, with so many inherent flaws of the ARII kit, my former method of converting a pure (and much more common) Gerwalk kit into a space-capable VF-1 fighter is not less challenging and complicated than trying to fix this OOB option into a decent model. :-/

Must view on black, press L

 

What a majestic animal! With its tail capable of throwing water about 20 rows back to the spectators yet its so humble and graceful during the show

If I were capable or had the patience and time, I would photoshop the lights out. But since neither of these are true, I'll just leave it this way.

 

Anyway, story is, my and my family went to a friend's house, and when it was time to go home there so much fog that it was really scare to drive, you could see absolutely nothing! Of course I wanted to capture the beauty of it all. Plus this is important for me because it's a collaboration of the entire family, my parents were in the car and my brother is the model.

This is the everyday 4L75 09:58 Crewe Basford Hall-Felixstowe, which is usually in the capable hands of a pair of 86`s. The location is Great Brington, a place not far from me, and one I often visit. This, unbelievably, is the first time I`ve managed a decent photograph of this working at this location! It wasn`t for the want of trying either. In fact, this is the 19th (NINETEENTH) attempt this year alone! So far, clouds have either got in the way at the wrong moment, the load is empty, or as good as empty, a 90 or a shed has been used instead of the 86`s, or as happeneed the other day, I simply messed up my shot! However, on the 15th of August 2011, I managed to actually take the picture when I wanted, (unlike the previous week when the shutter release didn`t work!) the motive power was the desired pair of 86`s, the sun was out, AND it was a good load. I really don`t ask for much you know. On second thoughts, it`s a shame one of the messy new liveried examples was leading!!!!

The hippopotamus, hippopotamuses or hippopotami, also shortened to hippo, hippos or Hippopotamus amphibius, further qualified as the common hippopotamus, Nile hippopotamus, or river hippopotamus, is a large semiaquatic mammal native to sub-Saharan Africa. It is one of only two extant species in the family Hippopotamidae, the other being the pygmy hippopotamus (Choeropsis liberiensis or Hexaprotodon liberiensis). Its name comes from the ancient Greek for "river horse" (ἱπποπόταμος).

 

After elephants and rhinoceros, the hippopotamus is the next largest land mammal. It is also the largest extant land artiodactyl. Despite their physical resemblance to pigs and other terrestrial even-toed ungulates, the closest living relatives of the hippopotamids are cetaceans (whales, dolphins, porpoises, etc.), from which they diverged about 55 million years ago. Hippos are recognisable for their barrel-shaped torsos, wide-opening mouths with large canine tusks, nearly hairless bodies, pillar-like legs, and large size: adults average 1,500 kg (3,300 lb) for bulls (males) and 1,300 kg (2,900 lb) for cows (females). Despite its stocky shape and short legs, it is capable of running 30 km/h (19 mph) over short distances.

 

Hippos inhabit rivers, lakes, and mangrove swamps. Territorial bulls each preside over a stretch of water and a group of five to thirty cows and calves. Mating and birth both occur in the water. During the day, hippos remain cool by staying in water or mud, emerging at dusk to graze on grasses. While hippos rest near each other in the water, grazing is a solitary activity and hippos typically do not display territorial behaviour on land. Hippos are among the most dangerous animals in the world due to their aggressive and unpredictable nature. They are threatened by habitat loss and poaching for their meat and ivory (canine teeth).

 

Etymology

The Latin word hippopotamus is derived from the ancient Greek ἱπποπόταμος (hippopótamos), from ἵππος (híppos) 'horse' and ποταμός (potamós) 'river', together meaning 'horse of the river'. In English, the plural is "hippopotamuses", but "hippopotami" is also used.

 

Taxonomy and origins

Classification

The modern hippopotamus and the pygmy hippopotamus are the only living members of the family Hippopotamidae. Some taxonomists place hippos and anthracotheres in the superfamily Anthracotheroidea. Hippopotamidae are classified along with other even-toed ungulates in the order Artiodactyla.

  

Detail of the head

Five subspecies of hippos have been described based on morphological differences in their skulls as well as differences in geographical range:

 

H. a. amphibius – (the nominate subspecies) ranges from Gambia east to Ethiopia and then south to Mozambique and historically ranged as far north as Egypt; its skull is distinguished by a moderately reduced preorbital region, a bulging dorsal surface, elongated mandibular symphysis and larger chewing teeth.

H. a. kiboko – found in Kenya and Somalia; was noted to be smaller and more lightly coloured than other hippos with wider nostrils, somewhat longer snout and more rounded and relatively raised orbits with the space between them being incurved.

H. a. capensis – found in Zambia and South Africa; distinguished by wider orbits.

H. a. tschadensis – ranges between Chad and Niger; featured a slightly shorter but broader face, and pronounced, forward-facing orbits.

H. a. constrictus – ranged from the southern Democratic Republic of Congo to Angola and Namibia; skull characterised by a thicker preorbital region, shorter snout, flatter dorsal surface, reduced mandibular symphysis and smaller chewing teeth.

The suggested subspecies above were never widely used or validated by field biologists; the described morphological differences were small enough that they could have resulted from simple variation in nonrepresentative samples. A study examining mitochondrial DNA from skin biopsies taken from 13 sampling locations found "low, but significant, genetic differentiation" among H. a. amphibius, H. a. capensis, and H. a. kiboko. Neither H. a. tschadensis nor H. a. constrictus have been tested.

 

Evolution

Until 1909, naturalists classified hippos together with pigs based on molar patterns. Several lines of evidence, first from blood proteins, then from molecular systematics and DNA and the fossil record, show their closest living relatives are cetaceans (whales, dolphins, and porpoises). The common ancestor of hippos and whales branched off from Ruminantia and the rest of the even-toed ungulates; the cetacean and hippo lineages split soon afterwards.

 

Artiodactyla

Tylopoda

Artiofabula

Suina

Cetruminantia

Ruminantia

Whippomorpha

Hippopotamidae

Cetacea

  

Anthracotherium magnum from the Oligocene of Europe

The most recent theory of the origins of Hippopotamidae suggests hippos and whales shared a common semiaquatic ancestor that branched off from other artiodactyls around 60 million years ago. This hypothesised ancestral group likely split into two branches again around 54 million years ago.

 

One branch would evolve into cetaceans, possibly beginning about 52 million years ago, with the protowhale Pakicetus and other early whale ancestors collectively known as Archaeoceti. This group eventually underwent aquatic adaptation into the completely aquatic cetaceans. The other branch became the anthracotheres, a large family of four-legged beasts, the earliest of which in the late Eocene would have resembled skinny hippos with comparatively smaller, narrower heads. All branches of the anthracotheres, except that which evolved into Hippopotamidae, became extinct during the Pliocene, leaving no descendants.

 

A rough evolutionary lineage of the hippo can thus be traced from Eocene and Oligocene species: from Anthracotherium and Elomeryx to the Miocene species Merycopotamus and Libycosaurus and finally the very latest anthracotheres in the Pliocene. These groups lived across Eurasia and Africa. The discovery of Epirigenys in East Africa, which was likely a descent of Asian anthracotheres and a sister taxon to Hippopotamidae, suggests that hippo ancestors entered Africa from Asia around 35 million years ago. An early hippopotamid is the genus Kenyapotamus, which lived in Africa from 15 to 9 million years ago. Hippopotamid species would spread across Africa and Eurasia, including the modern pygmy hippo. From 7.5 to 1.8 million years ago, a possible ancestor to the modern hippo, Archaeopotamus, lived in Africa and the Middle East. The oldest records of the genus Hippopotamus date to the Pliocene (5.3-2.6 million years ago). The oldest unambiguous records of the modern H. amphibius date to the Middle Pleistocene, though there are possible Early Pleistocene records.

 

Extinct species

Three species of Malagasy hippopotamus became extinct during the Holocene on Madagascar, the last of them within the past 1,000 years. The Malagasy hippos were smaller than the modern hippo, a likely result of the process of insular dwarfism. Fossil evidence indicates many Malagasy hippos were hunted by humans, a factor in their eventual extinction. Isolated individual Malagasy hippos may have survived in remote pockets; in 1976, villagers described a living animal called the kilopilopitsofy, which may have been a Malagasy hippo.

 

Hippopotamus gorgops from the Early Pleistocene-early Middle Pleistocene of Africa and West Asia grew considerably larger than the living hippopotamus, with an estimated body mass of over 4,000 kilograms (8,800 lb). Hippopotamus antiquus ranged throughout Europe, extending as far north as Britain during the Early and Middle Pleistocene epochs, before being replaced by the modern H. amphibius in Europe during the latter part of the Middle Pleistocene. The Pleistocene also saw a number of dwarf species evolve on several Mediterranean islands, including Crete (Hippopotamus creutzburgi), Cyprus (the Cyprus dwarf hippopotamus, Hippopotamus minor), Malta (Hippopotamus melitensis), and Sicily (Hippopotamus pentlandi). Of these, the Cyprus dwarf hippo survived until the end of the Pleistocene or early Holocene. Evidence from the archaeological site Aetokremnos continues to cause debate on whether or not the species was driven to extinction, or even encountered, by man.

 

Characteristics

The hippopotamus is a megaherbivore and is exceeded in size among land animals only by elephants and some rhinoceros species. The mean adult weight is around 1,480 kg (3,260 lb) for bulls and 1,365 kg (3,009 lb) for cows. Exceptionally large males have been recorded reaching 2,660 kg (5,860 lb). Male hippos appear to continue growing throughout their lives, while females reach maximum weight at around age 25. Hippos measure 2.90 to 5.05 m (9.5 to 16.6 ft) long, including a tail of about 35 to 56 cm (1.15 to 1.84 ft) in length and 1.30 to 1.65 m (4.3 to 5.4 ft) tall at the shoulder, with males and females ranging 1.40 to 1.65 m (4.6 to 5.4 ft) and 1.30 to 1.45 m (4.3 to 4.8 ft) tall at the shoulder respectively. The species has a typical head-body length of 3.3–3.45 m (10.8–11.3 ft) and an average standing height of 1.4 m (4.6 ft) at the shoulder.

 

Hippos have barrel-shaped bodies with short tails and legs, and an hourglass-shaped skull with a long snout.  Their skeletal structures are graviportal, adapted to carrying their enormous weight, and their dense bones and low centre of gravity allows them to sink and move along the bottom of the water. Hippopotamuses have small legs (relative to other megafauna) because the water in which they live reduces the weight burden. The toes are webbed and the pelvis rests at an angle of 45 degrees.  Though chubby-looking, hippos have little fat.  The eyes, ears, and nostrils of hippos are placed high on the roof of their skulls. This allows these organs to remain above the surface while the rest of the body is submerged.  The nostrils and ears can close when underwater while nictitating membranes cover the eyes.  The vocal folds of the hippo are more horizontally positioned, much like cetaceans. Underneath are throat tissues, where vibrations are transmitted to produce underwater calls.

  

Characteristic "yawn" of a hippo

The hippo's jaw is powered by huge masseter and digastric muscles which give them large, droopy cheeks. The jaw hinge allows the animal to open its mouth at almost 180°.  A folded orbicularis oris muscle allows the hippo to attain an extreme gape without tearing any tissue. On the lower jaw, the incisors and canines grow continuously, the former reaching 40 cm (1 ft 4 in), while the latter can grow to up to 50 cm (1 ft 8 in). The lower canines are sharpened through contact with the smaller upper canines. The canines and incisors are used mainly for combat instead of feeding. Hippos rely on their flattened, horny lips to grasp and pull grasses which are then ground by the molars.  The hippo is considered to be a pseudoruminant; it has a complex three-chambered stomach, but does not "chew cud".

  

Completely submerged hippo (San Diego Zoo)

Hippo skin is 6 cm (2 in) thick across much of its body with little hair.  The animal is mostly purplish-grey or blue-black, but brownish-pink on the underside and around the eyes and ears. Their skin secretes a natural, red-coloured sunscreen substance that is sometimes referred to as "blood sweat" but is neither blood nor sweat. This secretion is initially colourless and turns red-orange within minutes, eventually becoming brown. Two highly acidic pigments have been identified in the secretions; one red (hipposudoric acid) and one orange (norhipposudoric acid), which inhibit the growth of disease-causing bacteria and their light-absorption profile peaks in the ultraviolet range, creating a sunscreen effect. Regardless of diet, all hippos secrete these pigments so food does not appear to be their source; rather, they may be synthesised from precursors such as the amino acid tyrosine. This natural sunscreen cannot prevent the animal's skin from cracking if it stays out of water too long.

 

The testes of the males do not fully descend and a scrotum is not present. In addition, the penis retracts into the body when not erect. The genitals of the female hippos are unusual in that the vagina is ridged and the vulval vestibule has two large, protruding diverticula. Both of these have an unknown function. 

 

A hippo's lifespan is typically 40 to 50 years.  Donna the Hippo was one of the oldest living hippos in captivity. She lived at the Mesker Park Zoo in Evansville, Indiana, in the US until her death in 2012 at the age of 61. The oldest hippo ever recorded was called Bertha; she had lived in the Manila Zoo in the Philippines since it first opened in 1959. When she died in 2017, her age was estimated to be 65.

 

Distribution and status

During the Middle Pleistocene to the early Late Pleistocene (~500,000–80,000 years ago) Hippopotamus amphibius was present in Europe, extending as far north as England during the Eemian (130–115,000 years ago), with fossils also known from Portugal, Spain, Italy, and Greece. The species first entered Europe between 560,000 and 460,000 years ago, while the last H. amphibius remains in Europe are dated to about 30,000 years ago. Archaeological evidence exists of its presence in the Levant, dating to less than 3,000 years ago. The species was common in Egypt's Nile region during antiquity, but it has since been driven out. According to Pliny the Elder, in his time, the best location in Egypt for capturing this animal was in the Saite nome; the animal could still be found along the Damietta branch of the Nile after the Arab Conquest in 639. Reports of the slaughter of the last hippo in Natal Province were made at the end of the 19th century. Hippos are still found in the rivers and lakes of the northern Democratic Republic of the Congo, Uganda, Tanzania, and Kenya, north through to Ethiopia, Somalia, and Sudan, west to The Gambia, and south to South Africa.

 

Genetic evidence suggests common hippos in Africa experienced a marked population expansion during or after the Pleistocene, attributed to an increase in water bodies at the end of the era. These findings have important conservation implications, as hippo populations across the continent are currently threatened by loss of access to fresh water. Hippos are also subject to unregulated hunting and poaching. The species is included in Appendix II of the Convention on International Trade in Endangered Species (CITES) meaning international export/import (including in parts and derivatives) requires CITES documentation to be obtained and presented to border authorities.

 

As of 2017, the IUCN Red List drawn up by the International Union for Conservation of Nature (IUCN) lists the species as vulnerable, with a stable population estimated between 115,000 and 130,000 animals. The hippo population has declined most dramatically in the Democratic Republic of the Congo. By 2005, the population in Virunga National Park had dropped to 800 or 900 from around 29,000 in the mid-1970s. This decline is attributed to the disruptions caused by the Second Congo War. The poachers are believed to be Mai-Mai rebels, underpaid Congolese soldiers, and local militia groups. Reasons for poaching include the belief hippos are harmful to society, as well as financial gain. As of 2016, the Virunga hippo population appears to have increased again, possibly due to better protection from park rangers, who have worked with local fishermen. The sale of hippo meat is illegal, but black-market sales are difficult for Virunga National Park officers to track. Hippo meat is highly valued in some areas of central Africa and the teeth may be used as a replacement for elephant ivory.

 

A population of hippos exists in Colombia, descended from captive individuals that escaped from Pablo Escobar's estate after his death in 1993. Their numbers grew to 100 by the 2020s and ecologists believe the population should be eradicated, as they are breeding rapidly and are an increasing menace to humans and the environment. Attempts to control them include sterilisation and culling.

 

Behaviour and ecology

Hippos are semiaquatic and require enough water to immerse in, while being close to grass. Like most herbivores, hippos will consume a variety of plants if presented with them in captivity, but their diet in nature consists almost entirely of grass, with only minimal consumption of aquatic plants. They prefer relatively still waters with gently sloping shores, though male hippos may also be found in very small numbers in more rapid waters with rocky slopes.  Hippos mostly live in freshwater habitat, but can be found in estuaries. Despite being semiaquatic, an adult hippo is not a particularly good swimmer, nor can it float. It rarely enters deep water; when it does, the animal moves by bouncing off the bottom. An adult hippo surfaces every four to six minutes, while young need to breathe every two to three minutes.

 

Hippos spend most the day in water to stay cool and hydrated. Just before night begins, they leave the water to forage on land. Hippos usually trot to move quickly on land and can gallop at 30 km/h (19 mph) when needed. They are incapable of jumping but can walk up steep banks. A hippo will travel 3–5 km (1.9–3.1 mi) per night, eating around 40 kg (88 lb) of grass. By dawn, they are back in the water. The hippopotamus sleeps with both hemispheres of the brain resting, as in all land mammals, and usually sleeps on land or in water with the nostrils exposed. Despite this, it may be capable of sleeping while submerged, intermittently surfacing to breathe without waking. They appear to transition between different phases of sleep more quickly than other mammals.

 

Because of their size and their habit of taking the same paths to feed, hippos can have a significant impact on the land across which they walk, keeping the land clear of vegetation and depressing the ground. Over prolonged periods, hippos can divert the paths of swamps and channels. By defecating in the water, the animals also appear to pass on microbes from their gut, affecting the biogeochemical cycle. On occasion, hippos have been filmed eating carrion, usually near the water. There are other reports of meat-eating and even cannibalism and predation. Hippos' stomach anatomy lacks adaptions to carnivory and meat-eating is likely caused by lack of nutrients or just an abnormal behaviour.

 

Social life

It is challenging to study the interaction of bulls and cows because hippos are not sexually dimorphic, so cows and young bulls are almost indistinguishable in the field. Hippo pods fluctuate but can contain over 100 hippos. Although they lie close together, adults develop almost no social bonds. Males establish territories in water but not land, and these may range 250–500 m (270–550 yd) in lakes and 50–100 m (55–109 yd) in rivers. Territories are abandoned when the water dries up. The bull has breeding access to all the cows in his territory. Younger bachelors are allowed to stay as long as they defer to him. A younger male may challenge the old bull for control of the territory. Within the pods, the hippos tend to segregate by sex and status. Bachelor males lounge near other bachelors, females with other females, and the territorial male is on his own. When hippos emerge from the water to graze, they do so individually.

  

Male hippos fighting

Hippos engage in "muck-spreading" which involves defecating while spinning their tails to distribute the faeces over a greater area. Muck-spreading occurs both on land and in water and its function is not well understood. It is unlikely to serve a territorial function, as the animals only establish territories in the water. They may be used as trails between the water and grazing areas.  "Yawning" serves as a threat display. When fighting, bulls use their incisors to block each other's attacks and their large canines as offensive weapons.  When hippos become over-populated or a habitat shrinks, bulls sometimes attempt infanticide, but this behaviour is not common under normal conditions.

 

The most common hippo vocalisation is the "wheeze honk", which can travel over long distances in air. This call starts as a high-pitched squeal followed by a deeper, resonant call.  The animals can recognise the calls of other individuals. Hippos are more likely to react to the wheeze honks of strangers than to those they are more familiar with. When threatened or alarmed, they produce exhalations, and fighting bulls will bellow loudly. Hippos are recorded to produce clicks underwater which may have echolocative properties. They have the unique ability to hold their heads partially above the water and send out a cry that travels through both water and air; individuals respond both above and below water.

 

Reproduction

Cows reach sexual maturity at five to six years of age and have a gestation period of eight months. A study of endocrine systems revealed cows may begin puberty at as early as three or four years. Males reach maturity at around 7.5 years. Both conceptions and births are highest during the wet season. Male hippo always have mobile spermatozoa and can breed year-round.  After becoming pregnant, a female hippo will typically not begin ovulation again for 17 months.

  

Preserved hippopotamus fetus

Hippos mate in the water, with the cow remaining under the surface,  her head emerging periodically to draw breath. Cows give birth in seclusion and return within 10 to 14 days. Calves are born on land or shallow water weighing on average 50 kg (110 lb) and at an average length of around 127 cm (4.17 ft). The female lies on her side when nursing, which can occur underwater or on land. The young are carried on their mothers' backs in deep water. 

 

Mother hippos are very protective of their young, not allowing others to get too close. One cow was recorded protecting a calf's carcass after it had died. Calves may be temporarily kept in nurseries, guarded by one or more adults, and will play amongst themselves. Like many other large mammals, hippos are described as K-strategists, in this case typically producing just one large, well-developed infant every couple of years (rather than many small, poorly developed young several times per year, as is common among small mammals such as rodents). Calves no longer need to suckle when they are a year old. 

 

Interspecies interactions

Hippos coexist alongside a variety of large predators in their habitats. Nile crocodiles, lions, and spotted hyenas are known to prey on young hippos. Beyond these, adult hippos are not usually preyed upon by other animals due to their aggression and size. Cases where large lion prides have successfully preyed on adult hippos have been reported, but it is generally rare. Lions occasionally prey on adults at Gorongosa National Park and calves are sometimes taken at Virunga. Crocodiles are frequent targets of hippo aggression, probably because they often inhabit the same riparian habitats; crocodiles may be either aggressively displaced or killed by hippos. In turn, very large Nile crocodiles have been observed preying occasionally on calves, "half-grown" hippos, and possibly also adult female hippos. Groups of crocodiles have also been observed finishing off still-living male hippos that were previously injured in mating battles with other males.

 

Hippos occasionally visit cleaning stations in order to be cleaned of parasites by certain species of fishes. They signal their readiness for this service by opening their mouths wide. This is an example of mutualism, in which the hippo benefits from the cleaning while the fish receive food. Hippo defecation creates allochthonous deposits of organic matter along the river beds. These deposits have an unclear ecological function. A 2015 study concluded hippo dung provides nutrients from terrestrial material for fish and aquatic invertebrates, while a 2018 study found that their dung can be toxic to aquatic life in large quantities, due to absorption of dissolved oxygen in water bodies.

 

The parasitic monogenean flatworm Oculotrema hippopotami infests hippopotamus eyes, mainly the nictitating membrane. It is the only monogenean species (which normally live on fish) documented to live on a mammal.

 

Hippos and humans

The earliest evidence of human interaction with hippos comes from butchery cut marks on hippo bones found at the Bouri Formation and dated to around 160,000 years ago. 4,000–5,000 year art showing hippos being hunted have been found in the Tassili n'Ajjer Mountains of the central Sahara near Djanet. The ancient Egyptians recognised the hippo as a ferocious denizen of the Nile and representations on the tombs of nobles show the animals were hunted by humans.

 

The hippo was also known to the Greeks and Romans. The Greek historian Herodotus described the hippo in The Histories (written circa 440 BC) and the Roman naturalist Pliny the Elder wrote about the hippo in his encyclopedia Naturalis Historia (written circa 77 AD). The Yoruba people called the hippo erinmi, which means "elephant of the water". Some individual hippos have achieved international fame. Huberta became a celebrity during the Great Depression for trekking a great distance across South Africa. 

 

Attacks on humans

The hippo is considered to be extremely aggressive and has frequently been reported charging and attacking boats. Small boats can easily be capsized by hippos and passengers can be injured or killed by the animals, or drown in the water. In one 2014 case in Niger, a boat was capsized by a hippo and 13 people were killed. Hippos will often raid farm crops if the opportunity arises, and humans may come into conflict with them on these occasions. These encounters can be fatal to either humans or hippos.

 

According to the Ptolemaic historian Manetho, the pharaoh Menes was carried off and then killed by a hippopotamus.

 

In zoos

Hippos have long been popular zoo animals. The first record of hippos taken into captivity for display is dated to 3500 BC in Hierakonpolis, Egypt. The first zoo hippo in modern history was Obaysch, who arrived at the London Zoo on 25 May 1850, where he attracted up to 10,000 visitors a day and inspired a popular song, the "Hippopotamus Polka".

 

Hippos generally breed well in captivity; birth rates are lower than in the wild, but this can be attributed to zoos' desire to limit births, since hippos are relatively expensive to maintain. Starting in 2015, the Cincinnati Zoo built a US$73 million exhibit to house three adult hippos, featuring a 250,000 L (66,000 US gal) tank. Modern hippo enclosures also have a complex filtration system for the animal's waste, an underwater viewing area for the visitors, and glass that may be up to 9 cm (3.5 in) thick and capable of holding water under pressures of 31 kPa (4.5 psi).  In 1987, the Toledo Zoo saw the first underwater birth by a captive hippo. The exhibit was so popular, the logo of the Toledo Zoo was updated to feature the hippos.

 

Cultural significance

In Egyptian mythology, the god Set takes the form of a red hippopotamus and fights Horus for control of the land, but is defeated. The goddess Tawaret is depicted as a pregnant woman with a hippo head, representing fierce maternal love. The Ijaw people of the Niger Delta wore masks of aquatic animals like the hippo when practising their water spirit cults, and hippo ivory was used in the divination rituals of the Yoruba. Hippo masks were also used in Nyau funerary rituals of the Chewa of Southern Africa.[97]: 120  According to Robert Baden-Powell, Zulu warriors referred to hippos in war chants. The Behemoth from the Book of Job, is thought to be based on the hippo.

 

Hippos have been the subjects of various African folktales. According to a San story, when the Creator assigned each animal its place in nature, the hippos wanted to live in the water, but were refused out of fear they might eat all the fish. After begging and pleading, the hippos were finally allowed to live in the water on the condition they would eat grass instead of fish, and fling their dung so it can be inspected for fish bones. In a Ndebele tale, the hippo originally had long, beautiful hair, but it was set on fire by a jealous hare and the hippo had to jump into a nearby pool. The hippo lost most of his hair and was too embarrassed to leave the water.

  

The "Hippopotamus Polka"

Hippopotamuses were rarely depicted in European art during the Renaissance and Baroque periods, due to less access to specimens by Europeans. One notable exception is Peter Paul Rubens' The Hippopotamus and Crocodile Hunt (1615–1616).  Ever since Obaysch inspired the "Hippopotamus Polka", hippos have been popular animals in Western culture for their rotund appearance, which many consider comical. The Disney film Fantasia featured a ballerina hippo dancing to the opera La Gioconda. The film Hugo the Hippo is set in Tanzania and involves the title character trying to escape being slaughtered with the help of local children. The Madagascar films feature a hippo named Gloria.  Hippos even inspired a popular board game, Hungry Hungry Hippos.

 

Among the most famous poems about the hippo is "The Hippopotamus" by T. S. Eliot, where he uses the animal to represent the Catholic Church. Hippos are mentioned in the novelty Christmas song "I Want a Hippopotamus for Christmas" that became a hit for child star Gayla Peevey in 1953. They also featured in the popular "The Hippopotamous Song" by Flanders and Swann. 

 

A popular internet myth reports that hippos have pink milk. Biologist David Wynick states, "I think this is an Internet legend that is oft repeated but without any evidence for it that I can find... Like all mammals, hippos produce white or off-white milk for their young.

Now in the capable hands of GB Railfreight, The Royal Scotsman headed by Class 66, Nr 66743 climbs to Lochmuir summit on it's way to boat of Garten on The Speyside Railway, the first day of the four day classic tour.

Drakk had spent months searching through books in search of ways to expand his ever growing thirst for power. It was only recently that he stumbled across a handwritten note in a tome on chemical properties detailing the creation of a potion capable of unlocking “hidden potential.” The results were vague, but the ingredients were clear. The majority of the reagents were easily obtainable given Drakk’s ever growing treasure horde, but one item would prove to be elusive. The formulae called for a glowing chartreuse crystal, rare and found only in the deserts of loreos. It only took Drakk a moment to decide to venture for the crystal himself after being in the cramped library of the monastery for so long.

 

After completing a scrying spell to locate the nearest source of crystal, Drakk ventured to Loreos with a handful of his warriors. It wasn’t long before he stood at the very place his spell had guided him, an unsuspecting rock formation in an oasis deep in sandy desert. He and his men searched everywhere, but to no avail. The sun, sand, and frustration was more than enough for the sorcerer to lose his temper.

 

“Blast this Loressi wasteland!” He yelled as he conjured a fireball and threw it into the ground. As the smoke cleared, a small opening appeared in the rock. An underground cavern! “Quickly, give me your rope,” Drakk ordered to the nearest warrior monk. Grasping the secured line, he climbed through the hole into the cavern. The walls were covered in the glowing crystals, filling the cave with soft light. Still, the bottom could not be seen. Drakk reached for the nearest shard and ripped it free from the outcrop with his taloned hand.

 

Back on the surface, Drakk admired the crystal. Turning it over in his hands he felt its dormant magical properties trapped within. He couldn’t wait to bring it back to his lab...

-----------------------

Decided to try to do an inverted build, wish I had more rock pieces!

+++ DISCLAIMER +++

Nothing you see here is real, even though the conversion or the presented background story might be based historical facts. BEWARE!

  

In the period immediately after the Second World War the world found itself with hundreds of thousands of surplus aircraft and just as many surplus aviators. Most aircraft would meet the salvage blade and the smelter’s fiery furnace. Most pilots would return to civilian life, the bulk of them never to fly again.

 

With the plethora of military aircraft languishing in desert lots awaiting a certain fate, some of those disenfranchised aviators and aircraft designers would look to new growing markets for salvation. One of these emerging markets was the new-found requirement for fast and capable business transport aircraft for executives looking to link business interests across the vast distances of the nation. With few purpose-built business aircraft available for executives, medium bombers became the drug of choice for high flying big shots—fast, powerful and, with the right interior appointments, a visual statement of their success and power.

 

In early variants like the Executive, On Mark simply removed military equipment and replaced them with fairings and civil avionics, sealed the bomb bay doors, soundproofed the cabin, and added additional cabin windows. Later models had special wing spars designed to give more interior room, pressurization and equipment from bigger surplus aircraft such as DC-6 brakes and flat glass cockpit windows. It was an elegant mashing together of equipment, but it was not a true business aircraft.

 

In the Sixties, Jet Craft Ltd. of Las Vegas, Nevada, went for a different interpretation of the same topic: The company had purchased a number of former Royal Australian Air Force Vampire trainers and RCAF single-seaters, which were to be converted to a new design for a business aircraft called 'Mystery Jet', offering 4-8-seats.

 

Jet Craft worked with stellar British conversion experts Aviation Traders to do the structural design work. Aviation Traders Limited (ATL) was a war-surplus aircraft and spares trader formed in 1947. In 1949, it began maintaining aircraft used by some of Britain’s contemporary independent airlines on the Berlin Airlift. In the early 1950s, it branched out into aircraft conversions and manufacturing.

 

Aviation Traders worked on the drawings and the structural mock-ups. A full-scale mock-up of the Mystery Jet languished at Southend airport for a decade, trying to lure owners and operators into buying it. And this actually happened: about twenty former Vampire airframes were converted into Mystery Jet business aircraft, tailored to the customers' needs and desires.

 

The Mystery Jet was just what it looked like: a former De Havilland Vampire with a new, roomy nose section grafted onto it. The cabin was pressurized, and was available in two different lengths (130 and 160 inches long, with two or three rows of seats and reflected in the aircraft's title) and several window and door options - the most exotic option being the "Landaulet" cabin which featured a panoramic roof/window installation over the rear pair of seats (or, alternatively, a two-seat bench).

 

The original Goblin engine was retained, CG was retained due to the fact that the new cabin was, despite being considerably longer than the Vampire's nose, the biggest version being more than 8 feet longer. The new front section was much lighter, though, e. g. through the loss of the heavy cannons and their armament, as well as some more military avionics. The loss of fuel capacity through the enlarged cabin was compensated through fixed wing tip tanks, so that range was on par with the former military jet, just top speed and ceiling were slightly inferior.

 

Anyway, prices were steep and from the United States more modern and economical offerings ruled the market. Maintaining a former military jet was also a costly business, so, consequently, after a slight buzz (more of a hum, actually) in the early Seventies, the Mystery Jet and Jet Craft of Las Vegas, also fuelled by some dubious business practices by the company's owner, disappeared. Even further developments of the original concept, e .g. with a wide body for up to 14 passengers and two engines, would not save the Mystery Jet from failure.

  

General characteristics:

Crew: 1 pilot plus 5-7 passengers

Length (Mystery Jet 160): 38 ft 5 in (11.73 m)

Wingspan incl. tip tanks: 39 ft 7 1/2 in (12.09 m)

Height: 8 ft 10 in (2.69 m)

Wing area: 262 ft² (24.34 m²)

Empty weight: 7,283 lb (3,304 kg)

Max. take-off weight: 12,390 lb (5,620 kg)

 

Powerplant:

1× de Havilland Goblin 3 centrifugal turbojet, rated at 3,350 lbf (14.90 kN)

 

Performance:

Maximum speed: 516 mph (832 km/h)

Cruising speed: 400 mph (644 km/h)

Range: 1,220 mi (1,960 km)

Service ceiling: 37,700 ft (11,500 m)

 

Armament:

None

  

The kit and its assembly:

The first finished work in 2017 is a different kind of whif, one of the few civilian models in my collection. This conversion looks sick, but ,as weird as it may seem, the Business-Jet-From-Vintage-Vampires idea was real. For more information, and the source from where some of the backgound story was gathered, please check:

 

www.vintagewings.ca/VintageNews/Stories/tabid/116/article...

 

Anyway, my build is just a personal interpretation of the original concept, not a true model of the Mystery Jet. In fact, this was limited through the donor parts for this kitbash.

 

The rear end was the smaller problem: Airfix offers a very good Vampire T.11 trainer with excellent detail and fit - the passenger cabin was the bigger challenge. Finding "something" that would fit in shape and especialsl size was not easy - my first choice was a nose section from a vintage 1:100 Antonow An-24 from VEB Plasticart (still much too wide, though), and the best solution came as an accidental find in a local model kit shop where I found a heavily discounted MPM Focke Wulf Fw 189 B-0 trainer.

 

The reason: the kit was complete, but the bag holding the sprues must have been heated immensely during the packaging process: the main sprues were horrible warped - except for some single parts including the canopies and the sprue with the cabin! Height wind width were perfect, only the boxy shape caused some headaches. But I guess I would not find anything better...

 

That said, the transplantation mess started. I never built any of the two donor kits before, so I carefully tried to find the best place where to cut the Vampire's nose - I ended up with a staggered solution right in front of the wing root air intakes.

The Fw 189's cabin was bit more tricky, because I had to get rid of the original wing roots and wanted to use as much space as possible, up to the rear bulkhead and together with the rear cabin window. The idea was to blend the Fw 189's roof line into the Vampire's engine section, while keeping the original air intake ducts, so that the overall arrangement would look plausible.

 

The result became a pretty long nose section - and at that time the tail booms were not fited yet, so I was not certain concerning overall proportions. The cabin's underside had to be improvised, and blending the boxy front end with a flat underside into the tubby, round Vampire fuselage caused some headaches. I also had to re-create the lower flank section with styrene sheet, because I had originally hoped that I could "push" the new cabin between the wing roots - but that space was occupied by the Goblin's inlet ducts.

 

Inside of the cabin, the original floor, bulkheads and dashboard were used, plus five bucket seats that come with the MPM kit. In order to hide the body work from the inside, side panels from 0.5mm styrene sheet were added in the cabin - with the benefit of additional stability, but also costing some space... Since the machine was built with closed cabin, a pilot was added - actually a bash of a WWII Matchbox pilot and a German officer from an ESCI tank kit. Looks pretty good and "professional". ;-)

 

Once the cabin was in place, lots of PSR followed and the tail booms could be fitted. To my relief, the longer nose did not look too unbalanced (and actually, design sketches for the original Mystery Jet suggest just this layout!) - but I decided to add wing tip tanks which would beef up wingspan and shift the visual mass slightly forward. They come from an 1:100 Tamiya Il-28, or better the "R" recce variant.

 

The only other big change concerned the nose wheel. While the OOB wheel and strut were used, the well is now located in front of the wheel and it would retract forwards, giving the nose a more balanced look - and the cabin arrangement made this change more plausible, too.

 

Another addition were three small porthole windows in the solid parts of the cabin flanks - one of them ending up in the middle of the cabin door on starboard, where a solid part of the canopy roof lent itself for a good place just behind the pilots' seats.

  

Painting and markings:

I cannot help it, but the thing looks like a design from a vintage Tintin or Yoko Tsuno comic! This was not planned or expected - and actually the paint scheme evolved step by step. I had no plan or clue what to apply - the real Mystery Jet mock-up in silver with blue trim looked sharp, but somehow I did not want blue. So I started with the interior (out of a necessity, as the fuselage had to be closed before any further work progress at some point) and settled for plushy, British colors: Cream (walls and roof) and Claret-Red (carpet and seats).

 

I tried to find something for the outside that would complement this choice of colors, and eventually settled on Ivory and White (upper and lower fuselage halves, respectively) with some deep red trim, plus pale grey wing surfaces. I even considered some thin golden trim lines, but I think this would have been too much?

 

The trim was created with decals tripes from generic sheet material, the black anti-glare panel was painted, though. As a color contrast I painted some of the upper canopy panels in translucent, light blue, and this looks very good.

 

The wings received a lightb treatment with thinned black ink, in order to emphasize the engravings. No post-shading was done, though, for a rather clean look.

 

Most markings were puzzled together; the registration G-AZRE actually belonged to a Vickers Vanguard (from the 1:144 Airfix kit), the large letters above and under the wings were created with single 45° letters (USAF style). Most stencils come from a Vampire trainer aftermarket sheet from Xtradecal, from the OOB sheet only the "No step" warnings on the wings were used.

 

Finally, the kit was sealed with a semi-matt coat of varnish, except for the anti-glare panel, which recived a matt coat. The three small windows received artificial panes made from Clearfix, after their rims had been painted black.

  

A messy project, and you better do not take a close look. But the overall elegance of this creation surprises me - the real Mystery Jet already looked sleek, and this model, despite a more blunt nose, confirms this impression. The colors work together well, too - and the thing has a dedicated retro feel about it. Tintin might be on board, as well as Elton John, both sharing a cigar on the rear seats... ;)

SCENE ONE, Oscorp Building

~~~~~~~~~~~~~~~~~~~~~~~~~

Adrian Tombs is a scientist at Oscorp. Right now, is angrily walking towards his boss, Norman Osborn. You see, Tombs made something he called "Tech Flight". Which, is a pair of metal wings, capable of flight, which would be sent off to the military for battle. Adrian worked years on this project, and he was very proud when he finally created them. Unfortunately, Norman didn't end up selling them. He ended up selling something he called the "Tech Flight Glider", a device capable of being stood on, and flying. Adrian was furious that Norman wouldn't sell his project, and even steal it's name. That is why he's angry.

 

Adrian: Mr. Osborn, I'd like a word with you.

 

Norman: Ah yes, Professor Tombs. What's wrong?

 

Adrian: ...Are you serious?! I am speaking about what you did to my project, stealing the name?! I'm astounded you have the nerve to do such a thing.

 

Norman walks over to Tombs, looking down on him...

 

Norman: Listen, buzzard. I run a company.

 

Norman moves his hand, showing off his enormous building.

 

Norman: And this company owns you. So think before you speak up, because you're one strike away from being on the street.

 

Adrian: Y-Yes... Sir!

 

Adrian walks off, worried, but deep in his brain he wasn't scared of Norman... He was just angry... And he wanted revenge.

 

SCENE TWO, Midtown High

~~~~~~~~~~~~~~~~~~~~~~~~~

It's lunch time at Midtown High, after getting some food, Peter sits down at a table with Gwen Stacy, Harry Osborn, and Ned Leeds.

 

Peter: Hey, guys.

 

Gwen: Hi!

 

Ned: Pssst..! Peter. Heads up..!

 

Peter's brain: What is he talking about-...

 

Peter's spider-sense tingled, as he turned around to see Mary Jane walking over to sit down.

 

Peter: Oh-...

 

Peter's brain: Fu-

 

Mary Jane sits down...

 

Harry: Hello.

 

Gwen: Everyone, this is my friend, MJ.

 

Mary Jane looks over at Peter...

 

MJ: Hey... Are you that guy who said I was pretty?

 

Peter: I don't know what you're talking about...

 

Suddenly, Peter's sense tingled again... He looked out the window, the nearby Oscorp building was falling!!!

 

Harry: Holy crap! My dad's in there!!!

 

Student "Flash Thompson" gets up from his seat...

 

Flash: Everybody!

 

He points at the falling building...

 

Flash: Run for your lives!!!

 

All the students started running in different directions, screaming... Teachers tried to settle them, but to no use...

 

Peter's brain: Distraction..! Perfect...

 

Peter ran into a locker room, changed into his costume, and swung out a window to save the day!

 

SCENE THREE, Exploding Oscorp Building

~~~~~~~~~~~~~~~~~~~~~~~~~

A man in a green suit with wings flew in front of the window of Oscorp, as Norman Osborn noticed him...

 

Norman: W-who are you?!!

 

He took off his mask...

 

Winged Man: You knew me as Tombs, Osborn... But I go by a new title...

 

He smashed the window, and grabbed Norman by the throat, pulling him into the air!

 

Winged Man: I... Am the Vulture.

 

Tombs drops Norman 50 feet in the air!!!!

 

Norman: Aghhh!!!

 

Suddenly, Spider-Man swings in and creates a large padding of webs in the air to save Norman!!!

 

Norman: *uff*...

 

Spider-Man: Sup, winged... guy!

 

Vulture: Spider-Man!!!

 

Vulture flies down, grabs Norman, and flies away!

 

Spider-Man: Shoot...

 

Spider-Man swings after Vulture!

 

Norman: Agh! W-..Why are you doing this, Adrian?!

 

Vulture: My name's the Vulture!!!

 

Spider-Man: Ah, that's what I call you!

 

Vulture grabbed his blaster, turned around, and fired it as Spider-Man!

 

Spider-Man: Hey! Lemme get to know you first!

 

Spider-Man dodged every shot, then grabbed Norman, placed him on the ground, and swung towards the building!

 

Spider-Man: Okay, time for the next difficult thing!

 

Spider-Man swung through different windows, saving every single person in the building!

 

Civilian: Thank you, Spider-Man!

 

Spider-Man placed everyone he saved on the ground, as the building fell to the ground!

 

Norman: My enterprise...

 

Norman fell on his knees...

 

Vulture: That's not good enough!!!

 

Vulture tried to grab Norman again, but Spider-Man swung and kicked him in the chest, knocking him down! Spidey then used his webs to stick him to a street light!

 

Vulture: Damn it, damn it, damn it!!!

 

Spider-Man: Welp, that's enough of that!

 

Spidey looked over at the civilians...

 

Spider-Man: If the cops come, tell them to put that guy in prison!

 

He pointed at Vulture...

 

Civilian: Okay!

 

Spidey wall runs on a building, and begins swinging...

 

Peter's brain: Welp, that was a good day. Hopefully the destruction distracts MJ from remembering what I said to her...

 

Spider-Man: Woo hoo! I am Spider-Man!

 

~Madam Web

  

"This four-storey gatehouse is the tallest and most elaborate of the four, and was built in the early 14th century. It was intended as a self-contained fort, and each floor is capable of being defended separately. The current gatehouse was built to replace a 12th-century gate known as Munecagate, which stood 100 yards (91 m) to the north-west, on the site of the Roman gate porta decumana – that location is indicated by a slight dip in the earth rampart. Today, Monk Bar houses a museum called the Richard III Experience at Monk Bar and retains its portcullis in working order.

 

York has, since Roman times, been defended by walls of one form or another. To this day, substantial portions of the walls remain, and York has more miles of intact wall than any other city in England. They are known variously as York City Walls, the Bar Walls and the Roman walls (though this last is a misnomer as very little of the extant stonework is of Roman origin, and the course of the wall has been substantially altered since Roman times). The walls are generally 13 feet (4m) high and 6 feet (1.8m) wide.

 

York is a cathedral city and unitary authority area in North Yorkshire, England. The population of the council area which includes nearby villages was 208,200 as of 2017 and the population of the urban area was 153,717 at the 2011 census. Located at the confluence of the Rivers Ouse and Foss, it is the county town of the historic county of Yorkshire. The city is known for its famous historical landmarks such as York Minster and the city walls, as well as a variety of cultural and sporting activities, which makes it a popular tourist destination in England. The local authority is the City of York Council, a single tier governing body responsible for providing all local services and facilities throughout the city. The City of York local government district includes rural areas beyond the old city boundaries. It is about 25 miles north-east of Leeds and 34 miles north-west of Kingston upon Hull. York is the largest settlement in the ceremonial county of North Yorkshire.

 

The city was founded by the Romans as Eboracum in 71 AD. It became the capital of the Roman province of Britannia Inferior, and later of the kingdoms of Deira, Northumbria and Jórvík. In the Middle Ages, York grew as a major wool trading centre and became the capital of the northern ecclesiastical province of the Church of England, a role it has retained. In the 19th century, York became a major hub of the railway network and a confectionery manufacturing centre, a status it maintained well into the 20th century. During the Second World War, York was bombed as part of the Baedeker Blitz. Although less affected by bombing than other northern cities, several historic buildings were gutted and restoration efforts continued into the 1960s.

 

The economy of York is dominated by services. The University of York and National Health Service are major employers, whilst tourism has become an important element of the local economy. In 2016, York became sister cities with the Chinese city of Nanjing, as per an agreement signed by the Lord Mayor of York, focusing on building links in tourism, education, science, technology and culture. Today, the city is a popular tourist attraction, especially for international visitors from America, Germany, France and China. In 2017, York became UK's first human rights city, which formalised the city's aim to use human rights in decision making." - info from Wikipedia.

 

Summer 2019 I did a solo cycling tour across Europe through 12 countries over the course of 3 months. I began my adventure in Edinburgh, Scotland and finished in Florence, Italy cycling 8,816 km. During my trip I took 47,000 photos.

 

Now on Instagram.

 

Become a patron to my photography on Patreon.

Capable of 120 km/h!

  

MARINE CORPS BASE HAWAII (July 1, 2018) Japanese soldiers with the Japan Ground Self-Defense Force form together during a beach insertion rehearsal at Pyramid Rock as part of exercise Rim of the Pacific (RIMPAC). RIMPAC provides high-value training for task-organized, highly-capable Marine-Air Ground Task Force and enhances the critical crisis response capability of U.S. Marines in the Pacific. Twenty-five nations, 46 ships, five submarines, about 200 aircraft and 25,000 personnel are participating in RIMPAC from June 27 to Aug. 2 in and around the Hawaiian Islands and Southern California. (U.S. Marine Corps photo by Sgt. Zachary Orr)

From l to r: The Dag, Toast the Knowing, Cheedo the Fragile, The Splendid Angharad, and Capable.

At the beginning of the Vietnam War, there was little interest in a dedicated counterinsurgency (COIN) aircraft. The USAF was too committed to an all-jet, nuclear-capable force, while the US Army was satisfied with its helicopter fleet; the Navy concentrated on its carriers, and while the Marines were mildly interested, they lacked funding.

 

Vietnam was to change that. Horrendous losses among US Army UH-1s was to lead to a rethinking of helicopter doctrine, and pointed up the lack of a dedicated COIN aircraft. The USAF found itself depending on World War II-era A-26K Invaders, former US Navy A-1 Skyraiders, and converted trainers like the T-28 Trojan. The USAF also found itself in the market for a better forward air control (FAC) aircraft, due to the high loss rate of its O-1 Birddogs and O-2 Skymasters. Finally, the US Navy needed something to better cover its Mobile River Force units in the Mekong Delta, which could not always depend on USAF air support. In 1963, all three services issued a requirement for a new light design capable of performing as both a COIN and FAC aircraft. North American's NA-300 was selected in 1964 and designated OV-10A Bronco.

 

The OV-10 design drew heavily on independent research done at the China Lake research establishment, which in turn was inspired by the World War II P-38 Lightning fighter. The P-38 used a central "gondola" fuselage to concentrate all of its firepower along the centerline, which made for better accuracy; the OV-10 would do the same. As in the P-38, the engines were contained in twin booms that stretched back to the tail. The Bronco's four machine gun armament was placed in sponsons on either side of the fuselage, while ordnance was carried beneath the sponsons. To satisfy the USAF's requirements for a FAC aircraft, the two-man crew flew underneath a large, spacious canopy that gave them superb visibility. Because the Marines wanted an aircraft that could carry a Recon team, the fuselage was extended and, if the rear seat was removed, five paratroopers could be squeezed into the back, or two stretchers.

 

When the OV-10 arrived in Vietnam in 1968, there was a fear that the Bronco would be the jack of all trades and master of none. In fact, it proved to be excellent in all of its roles. As a FAC, it was a huge improvement over the slower O-1 and O-2; as a COIN aircraft, it was also a good aircraft, though it could not carry the same amount of ordnance as an A-1. The Navy equipped one squadron with OV-10As as VAL-4--nicknamed the "Black Ponies" for their dark green camouflage--and these were used extensively over the Mekong Delta. There were problems with the design: the airframe was actually too heavy for the engines, which left it underpowered, and ditching was invariably fatal for the pilot, as his seat tended to hurl forward into the instrument panel. Nonetheless, the Bronco turned in a sterling performance in Southeast Asia.

 

Though the Navy transferred its surviving Black Ponies to the Marines after the end of American involvement in Vietnam, the USAF and Marines would keep theirs for the next 20 years. For the 1970s and 1980s, the OV-10 replaced all other FAC designs in USAF service, aside from a handful of OA-37B Dragonfly squadrons. The Marines also kept their OV-10s and further refined the design by adding all-weather capability in the long-nosed OV-10D variant.

 

By the First Gulf War in 1991, the OV-10 was starting to show its age. The USAF began retiring its fleet even before Desert Storm; the Bronco was considered to be too slow to survive a modern air defense environment. Though the Marines used some of their OV-10Ds, the loss of two aircraft also led the USMC to retire their Broncos after war's end. Both services chose jets as replacements--the USAF with modified OA-10A Thunderbolt IIs, and the Marines with two-seat all-weather F/A-18Ds.

 

OV-10s were also a mild export success, going to seven other countries, mainly in the COIN role. Most have since been retired in favor of newer designs, though the Philippines still has a large and active OV-10 force. The type enjoyed a brief renaissance in 2015 when two former Marine OV-10Ds were taken up by the USAF for use against ISIS forces in Iraq, to see if the design was still viable. Though the OV-10s performed well, the USAF is not likely to put it back into production. 360 were built, and at least 25 are on display in museums aside from the aircraft that are still operational.

 

There's a little mystery behind this aircraft. There was only one OV-10A with 4643 in its tail number--67-14643. However, according to some reports, 67-14643 was shot down over South Vietnam in 1972. However, that's a bit strange...since Dad took this picture of 67-14643 at Ramstein in 1978. Either the reports are wrong, or the USAF renumbered one of its OV-10s. According to another online database, however, 67-14643 survived its Vietnam service, was assigned to the 601st Tactical Air Control Wing at Sembach, West Germany, and remained there until the USAF began retiring the Bronco in the late 1980s. It was then supplied to Colombia as FAC2214, and it served in the Fuerza Aerea Colombiana until 2015, when it was retired for good. 67-14643/FAC2214 then was placed on display as a gate guard, so it's still around...assuming that it wasn't lost in Vietnam in 1972!

 

Whatever the case, when Dad snapped this picture, the European-based OV-10 squadrons of the 601st TACW were just beginning to switch to the low-visibility Europe One camouflage from the overall light gray used by the FAC community over Vietnam. 67-14643 was still gray in 1978.

The aircraft tractor was developed from a similar version that was used for agriculture. Powered by a 4 cylinder diesel engine the gearbox had three forward and one reverse, high and low gears, capable of of towing 30 tons.

 

This tractor was used by the RAF in Malta up until the 50's when it scrapped. Two tractors and parts were recovered from a scrapyard which allowed one of then to be refurbished to full working condition.

 

This exhibit is used when required in its original role as an aircraft tractor.

 

Malta Aviation Museum,

Ta' Qali, Malta

 

For my video youtu.be/DvmbeFdVNfY

 

Soldiers of B Company of 2nd Battalion The Parachute Regiment line up to board a Royal Air Force Hercules at RAF Leeming, North Yorkshire.

 

The Paras were taking part in Exercise Capable Eagle, dropping from a Hercules C130J of 47 Squadron, over Wiley Sike, part of the RAF Spadeadam training area.

-------------------------------------------------------

© Crown Copyright 2013

Photographer: Fg Off Tony Durrant

Image 45156301.jpg from www.defenceimages.mod.uk

  

Use of this image is subject to the terms and conditions of the MoD News Licence at www.defenceimagery.mod.uk/fotoweb/20121001_Crown_copyrigh...

 

For latest news visit www.gov.uk/government/organisations/ministry-of-defence

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Santa Catalina Mountains as backdrop

 

DSC_0421 Anx2 V2 Q90 0.5k-2k

+++ DISCLAIMER +++

Nothing you see here is real, even though the conversion or the presented background story might be based historical facts. BEWARE!

  

Some background:

The Ling-Temco-Vought A-7 Corsair II was a carrier-capable subsonic light attack aircraft introduced to replace the Douglas A-4 Skyhawk. The A-7 airframe design was based on the successful supersonic Vought F-8 Crusader, although it was somewhat smaller and rounded off. The Corsair II initially entered service with the United States Navy during the Vietnam War. It was later adopted by the United States Air Force, including the Air National Guard, to replace the Douglas A-1 Skyraider and North American F-100 Super Sabre. The aircraft was also exported to several foreign countries, including Greece, Portugal, Thailand and New Zealand.

 

For the latter operator, the Corsair II was part of a major modernization campaign in the early 1970s. For instance, in 1970 14 McDonnell Douglas A-4 Skyhawks were purchased to replace the Vampire FB5's, which had been the primary light attack aircraft for the RNZAF for years, but the type was hopelessly outdated.

Furthermore New Zealand was also looking for a replacement of its similarly ageing Canberra fleet. These 31 aircraft were also phased out of service in mid 1970, and the A-7 chosen as the RNZAFs new fighter bomber because of its proven all-weather strike capability and advances avionics.

 

The RNZAF bought and operated 22 LTV A-7 Corsair II aircraft primarily in the coastal defense/anti-ship and sea patrol roles, air interdiction and air defense roles being secondary duties. The RNZAF Corsair II was very similar to the US Navy’s A-7E, even though the machines would only be operated form land bases. Designated A-7N, the machines featured an AN/APN-190 navigational radar with a Doppler groundspeed and drift detector plus an AN/APQ-128 terrain following radar. For the deployment of smart weapons, the machines were outfitted with a Pave Penny laser target acquisition system under the air intake lip, similar to the USAF’s A-7D, and could carry a wide range of weaponry and sensors, including AN/AAR-45 FLIR pods for an improved all-weather performance. Against enemy ships and large ground targets, visually guided smart bombs (AGM-62 and the more modern GBU-8 HOBOS) were bought, as well as AGM-65 Maverick against smaller, high priority targets.

 

Active service lasted between 1975 and 1999, and the A-7Ns were originally allocated between RNZAF 2 and 75 Squadron at Ohakea, where they were operated together with A-4K and TA-4K. The latter were also emplyed for A-7N pilot conversion training, since the RNZAF did not operate any Corsair II two seaters.

Several times the Squadron deployed to Clark Air Base in the Philippines and to Hawaii with both of the Corsair IIs and Skyhawks to exercise with the United States Air Force. Furthermore, the annual deployments as part of the Five Power Defence Agreement (called Exercise Vanguard) had the Squadron visit Australia, Singapore, Malaysia and Thailand to practice with those countries. Two RNZAF A-7s of 75 Squadron even made visits to Great Britain.

 

In the early Nineties the Corsair IIs started to suffer from numerous maintenance and logistic problems due to the lack of spare parts and general financial problems. This also prevented a major avionics update and the procurement of AGM-84 Harpoon missiles for the A-7Ns and the RNZAF P-3 Orion maritime patrol aircraft. The maintenance situation became so dire that several aircraft were cannibalized for spare parts to service other fighters. In 1992 only sixteen A-7Ns remained operational. This resulted in the available fighters no longer being assigned and dedicated to one specific squadron, but shared and assigned to one of the RNZAF combat squadrons (2, 14 and 75 Squadron, respectively), as needed.

 

During its 24 years of duty in the RNZAF, the A-7 fleet suffered 8 severe accidents with aircraft losses (and two pilots being killed). Nevertheless, the introduction of the A-7 was seen as a success due to the evolution that it allowed the Air Force in aircraft maintenance, with focus in modern computer and electronic systems, and in the steady qualification of pilots and technicians.

 

In 1999, the National Government selected an order of 28 F-16A/B Fighting Falcon aircraft to replace the complete fleet of A-4 Skyhawks and A-7 Corsair IIs, but this procurement plan was cancelled in 2001 following election by the incoming Labour Government under Helen Clark. This was followed by the disbanding of several fixed wing aircraft squadrons, with the consequence of removing the RNZAF's air combat capability. The last A-7 flight in RNZAF service took place on 1st of October 2001. Subsequently, most of the RNZAF's fighter pilots left New Zealand to serve in the Royal Australian Air Force and the Royal Air Force.

 

General characteristics:

Crew: 1

Length: 46 ft 2 in (14.06 m)

Wingspan: 38 ft 9 in (11.8 m), 23 ft 9 in (7.24 m) wings folded

Height: 16 ft 1 in (4.9 m)

Wing area: 374.9 sq ft (34.83 m²)

Airfoil: NACA 65A007 root and tip

Empty weight: 19,127 lb (8,676 kg)

Max takeoff weight: 41,998 lb (19,050 kg) overload condition.

Fuel capacity: 1,338 US gal (5,060 l; 1,114 imp gal) (10,200 lb (4,600 kg)) internal

 

Powerplant:

1 × Allison TF41-A-2 non-afterburning turbofan engine, 15,000 lbf (66.7 kN) thrust

 

Performance:

Maximum speed: 600 kn (690 mph; 1,111 km/h) at Sea level

Range: 1,070 nmi; 1,231 mi (1,981 km) maximum internal fuel

Ferry range: 1,342 nmi; 1,544 mi (2,485 km) with maximum internal and external fuel

Service ceiling: 42,000 ft (13,000 m)

Wing loading: 77.4 lb/sq ft (378 kg/m²)

Thrust/weight: 0.50

Take-off run: 1,705 ft (519.7 m) at 42,000 lb (19,000 kg)

 

Armament:

1× M61A1 Vulcan 20 mm (0.787 in) rotary cannon with 1,030 rounds

6× under-wing and 2× fuselage pylon stations (for mounting AIM-9 Sidewinder AAMs only)

with a total ordnance capacity of 15,000 lb (6,803.9 kg)

  

The kit and its assembly:

An idea that had been lingering on my project list for some years, and a recent build of an RNZAF A-7 by fellow modeler KiwiZac at whatifmodelers.com eventually triggered this build, a rather simple alternative livery whif. I had this idea on the agenda for some time, though, already written up a background story (which was accidently deleted early last year and sent the project into hiatus - until now) and had the kit as well as decals collected and stashed away.

 

The basis is the Hobby Boss A-7, which is available in a wide range of variant in 1:72 scale. Not cheap, but IMHO the best Corsair II kit at the moment, because it is full of ample surface details, goes together nicely and features a complete air intake, a good cockpit tub and even some maintenance covers that can be displayed in open position, in case you want to integrate the kit in a diorama. In my case it’s the A-7E kit, because I wanted a late variant and the US Navy’s refueling probe instead of the A-7D’s dorsal adapter for the USAF refueling boom system.

 

For the fictional RNZAF A-7N no fundamental changes were made. I just deliberately used OOB parts like the A-7D’s Pave Penny laser targeting pod under the air intake. As a personal addition I lowered the flaps slightly for a more lively look. Around the hull, some blade antennae were changed or added, and I installed the pair of pitots in front of the windscreen (made from thin wire).

 

The FLIR pod came with the kit, as well as the drop tank under the inner starboards wing pylon and the AIM-9Bs. Only the GBU-8s were externally sourced, from one of the Hasegawa USAF ordnance sets.

 

For the finalized kit on display I mounted the maintenance covers in open position, but for the beauty pics they were provisionally placed in closed position onto the kit’s flanks. The covers had to be modified for this stunt, but since their fit is very good and tight they easily stayed in place, even for the flight scenes!

 

Painting and markings:

This was the more interesting part – I wanted „something special“ for the fictional RNZAF Corsair II. Upon delivery, the USAF SEA scheme would certainly have been the most appropriate camouflage – the A-4K’s were painted this way and the aforementioned inspiring build by KiwiZac was finished this way.

 

Anyway, my plan had been from the start a machine in late service with low-viz markings similar to the A-4Ks, which received an attractive three-tone wrap-around scheme (in FS 34102, 34079 and 36081) or a simple all-around coat of FS 34079.

 

Both of these schemes could have been a sensible choice for this project, but… no! Too obvious, too simple for my taste. I rather wanted something that makes you wonder and yet make the aircraft look authentic and RNZAF-esque.

 

While digging for options and alternatives I stumbled upon the RNZAF’s C-130 Hercules transporters, which, like Canadian machines, carry a wrap-around scheme in two tones of grey (a light blue grey and a darker tone with a reddish hue) and a deep olive green tone that comes close to Dark Slate Grey, together with low-viz markings. A pretty unique scheme! Not as murky as the late A-4Ks and IMHO also well suited for the naval/coastal environment that the machine would patrol.

 

I was not able to positively identify the original tones on the CAF and RNZAF Hercs, so I interpreted various aircraft pictures. I settled upon Humbrol 163 (RAF Dark Green) 125 (FS 36118, Gunship Grey) and Revell 57 (RAL 7000, similar to FS 35237, but lighter and “colder”). For the wraparound scheme I used the C-130s as benchmark.

 

The cockpit became Dark Gull Grey (Humbrol 140) while the landing gear and the air intake duct became – behind 5mm of grey around the intake lip - white. The maintenance hatches’ interior was painted with a mix of Humbrol 81 and 38, for a striking zinc chromate primer look.

 

After a light black ink wash the kit received some panel post-shading for more contrast esp. between the dark colors and a slightly worn and sun-bleached look, since the aircraft would be depicted towards the end of its active service life.

 

Decals were the most challenging task, though: finding suitable RNZAF roundels is not easy, and I was happy when Xtradecal released an appropriate sheet that offers kiwi roundels for all positions (since motifs for port and starboard have to be mirrored). The Kiwi squadron emblem actually belongs to an RNZAF A-4K (from an Old Models sheet). The serial codes were puzzled together from single letter (TL Modellbau), most stencils come from the Hobby Boss OOB sheet.

  

A simple build, yet a very interesting topic and in the end also an IMHO very cool-looking aircraft in its fictional livery. Building the Hobby Boss A-7 was easy, despite some inherent flaws of the kit (e .g. totally blank dashboard and side consoles, and even no decals included!). The paint scheme lent from the RNZAF Hercs suits the SLUF well, though.

capable of starting fire

I'm convinced that she just isn't capable of relaxing...

Meleagris gallopavo Linnaeus, 1758 - wild turkey in South Dakota, USA. (August 2010)

 

Birds are small to large, warm-blooded, egg-laying, feathered, bipedal vertebrates capable of powered flight (although some are secondarily flightless). Many scientists characterize birds as dinosaurs, but this is consequence of the physical structure of evolutionary diagrams. Birds aren’t dinosaurs. They’re birds. The logic & rationale that some use to justify statements such as “birds are dinosaurs” is the same logic & rationale that results in saying “vertebrates are echinoderms”. Well, no one says the latter. No one should say the former, either.

 

However, birds are evolutionarily derived from theropod dinosaurs. Birds first appeared in the Triassic or Jurassic, depending on which avian paleontologist you ask. They inhabit a wide variety of terrestrial and surface marine environments, and exhibit considerable variation in behaviors and diets.

 

The wild turkey is the most massive species in its entire order of birds. Two species of turkey are currently extant - others are known as fossils. Both modern turkey species are native to the New World. Domesticated turkeys, used as a source of food by humans, are derived from the wild turkey. Considerable sexual dimorphism is present - males are larger with more colorful plumage, and moderately long tail feathers. Females are smaller with more subdued plumage coloration, and shorter tail feathers.

 

Classification: Animalia, Chordata, Vertebrata, Aves, Galliformes, Phasianidae

 

Locality: Wind Cave National Park, southern Black Hills, southwestern South Dakota, USA

------------

Info. at:

en.wikipedia.org/wiki/Wild_turkey

and

en.wikipedia.org/wiki/Turkey_(bird)

 

+++ DISCLAIMER +++

Nothing you see here is real, even though the conversion or the presented background story might be based historical facts. BEWARE!

  

The KAI T-50 Golden Eagle (골든이글) is a family of South Korean supersonic advanced trainers and light combat aircraft, developed by Korea Aerospace Industries (KAI) with Lockheed Martin. The T-50 is South Korea's first indigenous supersonic aircraft and one of the world's few supersonic trainers.

 

The T-50 program started in the late Nineties and was originally intended to develop an indigenous trainer aircraft capable of supersonic flight, to train and prepare pilots for the KF-16 and F-15K, replacing trainers such as T-38 and A-37 that were then in service with the ROKAF. Prior South Korean aircraft programs include the turboprop KT-1 basic trainer produced by Daewoo Aerospace (now part of KAI), and license-manufactured KF-16.

 

The mother program, code-named KTX-2, began in 1992, but the Ministry of Finance and Economy suspended the original project in 1995 due to financial constraints. The basic design of the aircraft was set by 1999, and eventually the development of the aircraft was funded 70% by the South Korean government, 17% by KAI, and 13% by Lockheed Martin.

 

In general, the T-50 series of aircraft closely resembles the KF-16 in configuration, but it actually is a completely new design: the T-50 is 11% smaller and 23% lighter than an F-16, and in order to create enough space for the two-seat cockpit, the air intake was bifurcated and placed under the wing gloves, resembling the F/A-18's layout.

 

The aircraft was formally designated as the T-50 'Golden Eagle' in February 2000, the T-50A designation had been reserved by the U.S. military to prevent it from being inadvertently assigned to another aircraft model. Final assembly of the first T-50 took place between 15 January and 14 September 2001. The first flight of the T-50 took place in August 2002, and initial operational assessment from 28 July to 14 August 2003.

 

The trainer has a cockpit for two pilots in a tandem arrangement, both crew members sitting in "normal" election seats, not in the F-16's reclined position. The high-mounted canopy is applied with stretched acrylic, providing the pilots with good visibility, and has been tested to offer the canopy with ballistic protection against 4-lb objects impacting at 400 knots.

 

The ROKAF, as original development driver, placed an initial production contract for 25 T-50s in December 2003, with aircraft scheduled to be delivered between 2005 and 2009. Original T-50 aircraft were equipped with the AN/APG-67(v)4 radar from Lockheed Martin. The T-50 trainer is powered by a GE F404 engine built under license by Samsung Techwin. Under the terms of the T-50/F404-102 co-production agreement, GE provides engine kits directly to Samsung Techwin who produces designated parts as well as performing final engine assembly and testing.

 

The T-50 program quickly expanded beyond a pure trainer concept to include the TA-50 armed trainer aircraft, as well as the FA-50 light attack aircraft, which has already similar capabilities as the multirole KF-16. Reconnaissance and electronic warfare variants were also being developed, designated as RA-50 and EA-50.

 

The TA-50 variant is a more heavily armed version of the T-50 trainer, intended for lead-in fighter training and light attack roles. It is equipped with an Elta EL/M-2032 fire control radar and designed to operate as a full-fledged combat platform. This variant mounts a lightweight three-barrel cannon version of the M61 Vulcan internally behind the cockpit, which fires linkless 20 mm ammunition. Wingtip rails can accommodate the AIM-9 Sidewinder missile, a variety of additional weapons can be mounted to underwing hardpoints, including precision-guided weapons, air-to-air missiles, and air-to-ground missiles. The TA-50 can also mount additional utility pods for reconnaissance, targeting assistance, and electronic warfare. Compatible air-to-surface weapons include the AGM-65 Maverick missile, Hydra 70 and LOGIR rocket launchers, CBU-58 and Mk-20 cluster bombs, and Mk-82, -83, and -84 general purpose bombs.

 

Among the operators of the TA-50 are the Philippines, Thailand and the ROKAF, and the type has attracted a global interest, also in Europe. The young Republic of Scotland Air Corps (locally known as Poblachd na h-Alba Adhair an Airm) chose, soon after the country's independence from the United Kingdom, after its departure from the European Union in 2017, the TA-50 as a complement to its initial procurements and add more flexibility to its small and young air arm.

 

According to a White Paper published by the Scottish National Party (SNP) in 2013, an independent Scotland would have an air force equipped with up to 16 air defense aircraft, six tactical transports, utility rotorcraft and maritime patrol aircraft, and be capable of “contributing excellent conventional capabilities” to NATO. Outlining its ambition to establish an air force with an eventual 2,000 uniformed personnel and 300 reservists, the SNP stated the organization would initially be equipped with “a minimum of 12 interceptors in the Eurofighter/Typhoon class, based at Lossiemouth, a tactical air transport squadron, including around six [Lockheed Martin] C-130J Hercules, and a helicopter squadron”.

 

According to the document, “Key elements of air forces in place at independence, equipped initially from a negotiated share of current UK assets, will secure core tasks, principally the ability to police Scotland’s airspace, within NATO.” An in-country air command and control capability would be established within five years of a decision in favor of independence, it continues, with staff also to be “embedded within NATO structures”.

This plan was immediately set into action after the country's independence in late 2017 with the purchase of twelve refurbished Saab JAS 39A Gripen interceptors for Quick Reaction Alert duties and upgraded, former Swedish Air Force Sk 90 trainers for the RoScAC. But these second hand machines were just the initial step in the mid-term procurement plan.

 

The twelve KAI TA-50 aircraft procured as a second step were to fulfill the complex requirement for a light and cost-effective multi-purpose aircraft that could be used in a wide variety of tasks: primarily as an advanced trainer for supersonic flight and as a trainer for the fighter role (since all Scottish Gripens were single seaters and dedicated to the interceptor/air defense role), but also as a light attack and point defense aircraft.

 

Scotland was offered refurbished F-16C and Ds, but this was declined as the type was deemed to be too costly and complex. Beyond the KAI T-50, the Alenia Aermacchi M-346 Master and the BAe Hawk were considered, too, but, eventually, a modified TA-50 that was tailored to the RoScAC’s procurement plans was chosen by the Scottish government.

 

In order to fulfill the complex duty profile, the Scottish TA-50s were upgraded with elements from the FA-50 attack aircraft. They possess more internal fuel capacity, enhanced avionics, a longer radome and a tactical datalink. Its EL/M-2032 pulse-Doppler radar has been modified so that it offers now a range two-thirds greater than the TA-50's standard radar. It enables the aircraft to operate in any weather, detect surface targets and deploy AIM-120 AAMs for BVR interceptions. The machines can also be externally fitted with Rafael's Sky Shield or LIG Nex1's ALQ-200K ECM pods, Sniper or LITENING targeting pods, and Condor 2 reconnaissance pods to further improve the machine’s electronic warfare, reconnaissance, and targeting capabilities.

 

Another unique feature of the Scottish Golden Eagle is its powerplant: even though the machines are originally powered by a single General Electric F404 afterburning turbofan and designed around this engine, the RoScAC TF-50s are powered by a Volvo RM12 low-bypass afterburning turbofan. These are procured and serviced through Saab in Sweden, as a part of the long-term collaboration contract for the RoScAC’s Saab Gripen fleet. This decision was taken in order to decrease overall fleet costs through a unified engine.

 

The RM12 is a derivative of the General Electric F404-400. Changes from the standard F404 includes greater reliability for single-engine operations (including more stringent birdstrike protection) and slightly increased thrust. Several subsystems and components were also re-designed to reduce maintenance demands, and the F404's analogue Engine Control Unit was replaced with the Digital Engine Control – jointly developed by Volvo and GE – which communicates with the cockpit through the digital data buses and, as redundancy, mechanical calculators controlled by a single wire will regulate the fuel-flow into the engine.

 

Another modification of the RoScAC’s TA-50 is the exchange of the original General Dynamics A-50 3-barrel rotary cannon for a single barrel Mauser BK-27 27mm revolver cannon. Being slightly heavier and having a lower cadence, the BK-27 featured a much higher kinetic energy, accuracy and range. Furthermore, the BK-27 is the standard weapon of the other, Sweden-built aircraft in RoScAC service, so that further synergies and cost reductions were expected.

 

The Scottish Department of National Defense announced the selection of the TA-50 in August 2018, after having procured refurbished Saab Sk 90 and JAS 39 Gripen from Sweden as initial outfit of the country's small air arm with No. 1 Squadron based at Lossiemouth AB.

 

Funding for the twelve aircraft was approved by Congress on September 2018 and worth € 420 mio., making the Golden Eagle the young country’s first brand new military aircraft. Deliveries of the Golden Hawk TF.1, how the type was officially designated in Scottish service, began in November 2019, lasting until December 2020.

The first four Scottish Golden Hawk TF.1 aircraft were allocated to the newly established RoScAC No. 2 Squadron, based at Leuchars, where the RoScAC took control from the British Army. The latter had just taken over the former air base from the RAF in 2015, losing its “RAF air base” status and was consequentially re-designated “Leuchars Station”, primarily catering to the Royal Scots Dragoon Guards who have, in the meantime, become part of Scotland’s Army Corps. The brand new machines were publically displayed on the shared army and air corps facility in the RoScAC’s new paint scheme on 1st of December 2019 for the first time, and immediately took up service.

 

General characteristics:

Crew: 2

Length: 13.14 m (43.1 ft)

Wingspan (with wingtip missiles): 9.45 m (31 ft)

Height: 4.94 m (16.2 ft)

Wing area: 23.69 m² (255 ft²)

Empty weight: 6,470 kg (14,285 lb)

Max. takeoff weight: 12,300 kg (27,300 lb)

 

Powerplant:

1× Volvo RM12 afterburning turbofan, rated at 54 kN (12,100 lbf) dry thrust

and 80.5 kN (18,100 lbf) with afterburner

 

Performance:

Maximum speed: Mach 1.5 (1,640 km/h, 1,020 mph at 9,144 m or 30,000 ft)

Range: 1,851 km (1,150 mi)

Service ceiling: 14,630 m (48,000 ft)

Rate of climb: 198 m/s (39,000 ft/min)

Thrust/weight: 0.96

Max g limit: -3 g / +8 g

 

Armament:

1× 27mm Mauser BK-27 revolver cannon with 120 rounds

A total of 7 hardpoints (4 underwing, 2 wingtip and one under fuselage)

for up to 3,740 kg (8,250 lb) of payload

  

The kit and its assembly:

A rare thing concerning my builds: an alternative reality whif. A fictional air force of an independent Scotland crept into my mind after the hysterical “Brexit” events in 2016 and the former (failed) public vote concerning the independence of Scotland from the UK. What would happen to the military, if the independence would take place, nevertheless, and British forces left the country?

 

The aforementioned Scottish National Party (SNP) paper from 2013 is real, and I took it as a benchmark. Primary focus would certainly be set on air space defense, and the Gripen appears as a good and not too expensive choice. The Sk 90 is a personal invention, but would fulfill a good complementary role.

Nevertheless, another multi-role aircraft would make sense as an addition, and both M-346 and T-50 caught my eye (Russian options were ruled out due to the tense political relations), and I gave the TA-50 the “Go” because of its engine and its proximity to the Gripen.

 

The T-50 really looks like the juvenile offspring from a date between an F-16 and an F-18. There’s even a kit available, from Academy – but it’s a Snap-Fit offering without a landing gear but, as an alternative, a clear display that can be attached to the engine nozzle. It also comes with stickers instead of waterslide decals. This sounds crappy and toy-like, but, after taking a close look at kit reviews, I gave it a try.

 

And I am positively surprised. While the kit consists of only few parts, moulded in the colors of a ROCAF trainer as expected, the surfaces have minute, engraved detail. Fit is very good, too, and there’s even a decent cockpit that’s actually better than the offering of some “normal” model kits. The interior comes with multi-part seats, side consoles and dashboards that feature correctly shaped instrument details (no decals). The air intakes are great, too: seamless, with relatively thin walls, nice!

 

So far, so good. But not enough. I could have built the kit OOB with the landing gear tucked up, but I went for the more complicated route and trans-/implanted the complete landing gear from an Intech F-16, which is available for less than EUR 5,- (and not much worth, to be honest). AFAIK, there’s white metal landing gear for the T-50 available from Scale Aircraft Conversions, but it’s 1:48 and for this set’s price I could have bought three Intech F-16s…

 

But back to the conversion. This landing gear transplantation stunt sounds more complicated as it actually turned out to be. For the front wheel well I simply cut a long opening into the fuselage and added inside a styrene sheet as a well roof, attached under the cockpit floor.

For the main landing gear I just opened the flush covers on the T-50 fuselage, cut out the interior from the Intech F-16, tailored it a little and glued it into its new place.

 

This was made easy by the fact that the T-50 is a bit smaller than the F-16, so that the transplants are by tendency a little too large and offer enough “flesh” for adaptations. Once in place, the F-16 struts were mounted (also slightly tailored to fit well) and covers added. The front wheel cover was created with 0.5 mm styrene sheet, for the main covers I used the parts from the Intech F-16 kit because they were thinner than the leftover T-50 fuselage parts and feature some surface detail on the inside. They had to be adapted in size, though. But the operation worked like a charm, highly recommended!

 

Around the hull, some small details like missing air scoops, some pitots and antennae were added. In a bout of boredom (while waiting for ordered parts…) I also added static dischargers on the aerodynamic surfaces’ trailing edges – the kit comes with obvious attachment points, and they are a small detail that improves the modern look of the T-50 even more.

 

Since the Academy kit comes clean with only a ventral drop tank as ordnance, underwing pylons from a SEPECAT Jaguar (resin aftermarket parts from Pavla) and a pair of AGM-65 from the Italeri NATO Weapons set plus launch rails were added, plus a pair of Sidewinders (from a Hasegawa AAM set, painted as blue training rounds) on the wing tip launch rails.

Since the T-50 trainer comes unarmed, a gun nozzle had to be added – its position is very similar to the gun on board of the F-16, on the upper side of the port side LERX. Another addition are conformal chaff/flare dispensers at the fin’s base, adding some beef to the sleek aircraft.

  

Painting and markings:

I did not want a grey-in-grey livery, yet something “different” and rather typical or familiar for the British isles. My approach is actually a compromise, with classic RAF colors and design features inspired by camouflage experiments of the German Luftwaffe on F-4F Phantoms and Alpha Jets in the early Eighties.

 

For the upper sides I went for a classic British scheme, in Dark Green and Dark Sea Grey (Humbrol 163 and 164), colors I deem very appropriate for the Scottish landscape and for potential naval operations. These were combined with elements from late RAF interceptors: Barley Grey (Humbrol 167) for the flanks including the pylons, plus Light Aircraft Grey (Humbrol 166) for the undersides, with a relatively high waterline and a grey fin, so that a side or lower view would rather blend with the sky than the ground below.

 

Another creative field were the national markings: how could fictional Scottish roundels look like, and how to create them so that they are easy to make and replicate (for a full set for this kit, as well as for potential future builds…)? Designing and printing marking decals myself was an option, but I eventually settled for a composite solution which somewhat influenced the roundels’ design, too.

My Scottish roundel interpretation consists of a blue disk with a white cross – it’s simple, different from any other contemporary national marking, esp. the UK roundel, and easy to create from single decal parts. In fact, the blue roundels were die-punched from blue decal sheet, and the cross consists of two thin white decal strips, cut into the correct length with the same stencil, using generic sheet material from TL Modellbau.

 

Another issue was the potential tactical code, and a small fleet only needs a simple system. Going back to a WWII system with letter codes for squadrons and individual aircraft was one option, but, IMHO, too complicated. I adopted the British single letter aircraft code, though, since this system is very traditional, but since the RoScAC would certainly not operate too many squadrons, I rather adapted a system similar to the Swedish or Spanish format with a single number representing the squadron. The result is a simple 2-digit code, and I adapted the German system of placing the tactical code on the fuselage, separated by the roundel. Keeping British traditions up I repeated the individual aircraft code letter on the fin, where a Scottish flag, a small, self-printed Fife coat-or-arms and a serial number were added, too.

 

The kit saw only light weathering and shading, and the kit was finally sealed with matt acrylic varnish (Italeri).

  

Creating this whif, based on an alternative historic timeline with a near future perspective, was fun – and it might spawn more models that circle around the story. A Scottish Sk 90 and a Gripen are certain options (and for both I have kits in the stash…), but there might also be an entry level trainer, some helicopters for the army and SAR duties, as well as a transport aircraft. The foundation has been laid out, now it’s time to fill Scotland’s history to come with detail and proof. ;-)

 

Besides, despite being a snap-fit kit, Academy’s T-50 is a nice basis, reminding me of some Hobby Boss kits but with less flaws (e .g. most of the interiors), except for the complete lack of a landing gear. But with the F-16 and Jaguar transplants the simple kit developed into something more convincing.

Mons Meg est une bombarde médiévale (XVe siècle) de la collection des Royal Armouries prêtée à Historic Scotland. Elle symbolise le passé militaire glorieux de l'Écosse. Cet impressionnant canon de siège de 6 tonnes, de calibre 20 pouces (510 mm) est capable de tirer des boulets de pierre pesant 330 livres (150 kgs) jusqu'à 2 miles de distance (3,2 kms). A l’origine le canon était peint avec du plomb rouge pour l’empêcher de rouiller. Il fallait cent hommes pour le transporter. Avec l'énorme "canon des Dardanelles" en bronze coulé de 17 tonnes fabriquée en 1464 pour le sultan turc Mohamet II (exposé à présent dans la cour de la Tour de Londres), ces bombardes sont parmi les plus gros canons jamais construits. L'auteur anglais Dudley Pope cite le Mons Meg mais également le Dulle Griet de Gand comme exemples des plus gros canons construits au Moyen Age, et dit des deux qu'ils "ont probablement été fabriqués en "Flandre" (région qui deviendra plus tard la Belgique et que les Français appelaient "Pays-Bas"). Le "Dulle Griet mesurait plus de 5 m de long pesait 12.5 tonnes avec un calibre à la bouche d'environ 90 cm. Il était peint en rouge sang lui valant le surnom de « grand démon rouge ». Le nom flamand Griet et le nom anglais Meg sont tous deux des diminutifs du nom de Margaret (ou Margriet), équivalents du français Marguerite. Mons Meg a été construit par Jehan Cambier, fabricant d'artillerie du duc de Bourgogne Philippe le Bonet il a été testé avec succès à Mons dans le comté de Hainaut dans l'actuelle Belgique, en juin 1449. Le duc n'en prendra livraison qu'en 1453. Le duc a offert la bombarde au roi d'Écosse James II en 1457 dont il avait aidé à négocier le mariage en signe de son soutien.

Le canon est fabriqué selon la méthode qui consistait à forger ensemble des barres de fer droites autour d'un mandrin, et de les consolider ensuite avec des cercles de fer, dilatés par chauffe et brusquement refroidis à l'eau pour provoquer un rétrécissement, à la manière des barriques. La manière dont ces canons sont fabriqués ainsi que les variations de qualité de la poudre noire dont les ingrédients étaient souvent transportés séparément et mélangés sur place, en faisait des armes très peu fiables. Les explosions n'étaient pas rares, et on peut dire que ces bombardes étaient plus dangereuses pour leurs servants que pour ceux sur qui on tirait. L'effet psychologique de la flamme et du tonnerre au départ du coup étaient plus impressionnant que le gros boulet de pierre. Il faut également imaginer la somme d'efforts et d'énergie nécessaires au déplacement de ces énormes pièces, ainsi que la difficulté de leur mise en batterie. Une fois en place, ces bombardes ne pouvaient plus être déplacées, et tout réglage de visée était exclu. Elles ne pouvaient tirer qu'une dizaine de coups par jour au maximum en raison de l’énorme chaleur générée par la charge de poudre, et si leurs gros boulets de pierre parvenaient à ouvrir des brèches dans des murailles pas trop épaisses, ils étaient pratiquement sans effet contre l'infanterie et la cavalerie, qui pouvait les voir arriver de loin et les éviter assez aisément.

La bombarde a été employée dans les sièges jusqu'au milieu du XVIe siècle. Probablement pour la première fois en 1460 au château de Roxburgh près de la frontière avec l'Angleterre. Au cours de cette bataille, le roi Jacques II d'Écosse a été mortellement blessé lorsqu'un autre canon de siège géant a explosé. En 1489, elle a été emmenée à 80 km (50 miles) à l'ouest du château de Dumbarton (puis le château de Norham), pour aider à maîtriser le comte de Lennox. Le poids énorme de Mons Meg la rendait très difficile à déplacer. Sa vitesse moyenne n'était que de 14 kms (9 miles) par jour. Elle termina ses jours de combat dans la marine du roi Jacques V, prenant sa retraite vers 1540. Elle ne fut tiré ensuite que lors d'occasions cérémonielles : en 1558 pour célébrer le mariage de Mary Queen of Scots avec le dauphin français, puis de nouveau en 1681, en guise de salut d'anniversaire pour le futur roi Jacques VII. Malheureusement le baril éclata rendant le Mons Meg inutilisable (les cerceaux fracturés sont encore visibles). En 1754, Mons Meg fut emmenée à la Tour de Londres, où il y resta 75 ans. Il est ramené au château en 1829. La cavalerie et l’infanterie l’escortent de Leith Docks à Castle Rock. Mons Meg a depuis été restauré et est maintenant exposé dans le château. Il reste très populaire aujourd’hui auprès des touristes, qui ne résistent pas à mettre la tête dans l'énorme canon…

 

Mons Meg is a medieval (15th century) bombard from the collection of the Royal Armories on loan to Historic Scotland. It symbolizes Scotland's glorious military past. This impressive 6-ton, 20-inch (510 mm) caliber siege gun is capable of firing stone balls weighing 330 pounds (150 kg) up to 2 miles away (3.2 km). Originally the barrel was painted with red lead to prevent it from rusting. It took a hundred men to transport it. Together with the massive 17-tonne cast bronze 'Dardanelle Cannon' made in 1464 for the Turkish Sultan Mohammet II (now on display in the courtyard of the Tower of London), these bombards are among the largest cannons ever built. The English author Dudley Pope cites the Mons Meg but also the Dulle Griet of Ghent as examples of the largest guns built in the Middle Ages, and says of both that they "were probably made in 'Flanders' (a region which later became Belgium and which the French called "Pays-Bas"). The "Dulle Griet was more than 5 m long, weighed 12.5 tons with a caliber at the muzzle of about 90 cm. He was painted blood red, earning him the nickname "great red demon". The Flemish name Griet and the English name Meg are both diminutives of the name Margaret (or Margriet), equivalents of the French Marguerite. Mons Meg was built by Jehan Cambier, artillery maker for the Duke of Burgundy Philippe le Bonet it was successfully tested in Mons in the county of Hainaut in present-day Belgium, in June 1449. The duke never took delivery of it than in 1453. The Duke gifted the bombard to King James II of Scotland in 1457 whose marriage he had helped negotiate as a sign of his support.

The barrel is made by the method of forging straight iron bars together around a mandrel, and then consolidating them with iron hoops, expanded by heating and suddenly cooled with water to cause shrinkage, to the way of the barrels. The way in which these guns are made as well as the variations in quality of black powder whose ingredients were often transported separately and mixed on site, made them very unreliable weapons. Explosions were not uncommon, and it can be said that these bombards were more dangerous for their servants than for those who were fired at. The psychological effect of the flame and the thunder at the start of the blow were more impressive than the large stone ball. One must also imagine the amount of effort and energy required to move these huge pieces, as well as the difficulty of putting them in battery. Once in place, these bombards could no longer be moved, and any aiming adjustment was excluded. They could only fire about ten shots a day at the most because of the enormous heat generated by the powder charge, and if their big stone balls managed to open breaches in walls not too thick, they were practically without effect against infantry and cavalry, which could see them coming from afar and avoid them quite easily.

The bombard was used in sieges until the middle of the 16th century. Probably first seen in 1460 at Roxburgh Castle near the border with England. During this battle, King James II of Scotland was mortally wounded when another giant siege cannon exploded. In 1489, she was taken 80 km (50 miles) west of Dumbarton Castle (then Norham Castle), to help subdue the Earl of Lennox. Mons Meg's enormous weight made her very difficult to move. Its average speed was only 14 kms (9 miles) per day. She ended her days of combat in the navy of King James V, retiring around 1540. She was only fired afterwards on ceremonial occasions: in 1558 to celebrate the marriage of Mary Queen of Scots to the French Dauphin, then to again in 1681, as a birthday greeting for the future King James VII. Unfortunately the barrel burst rendering the Mons Meg unusable (the fractured hoops are still visible). In 1754, Mons Meg was taken to the Tower of London, where he remained for 75 years. He was brought back to the castle in 1829. Cavalry and infantry escorted him from Leith Docks to Castle Rock. Mons Meg has since been restored and is now on display in the castle. It remains very popular today with tourists, who can't resist putting their heads in the huge cannon...

 

Some background:

Simple, efficient and reliable, the Regult (リガード, Rigādo) was the standard mass production mecha of the Zentraedi forces. Produced by Esbeliben at the 4.432.369th Zentraedi Fully Automated Weaponry Development and Production Factory Satellite in staggering numbers to fill the need for an all-purpose mecha, this battle pod accommodated a single Zentraedi soldier in a compact cockpit and was capable of operating in space or on a planet's surface. The Regult saw much use during Space War I in repeated engagements against the forces of the SDF-1 Macross and the U.N. Spacy, but its lack of versatility against superior mecha often resulted in average effectiveness and heavy losses. The vehicle was regarded as expendable and was therefore cheap, simple, but also very effective when fielded in large numbers. Possessing minimal defensive features, the Regult was a simple weapon that performed best in large numbers and when supported by other mecha such as Gnerl Fighter Pods. Total production is said to have exceeded 300 million in total.

 

The cockpit could be accesses through a hatch on the back of the Regult’s body, which was, however, extremely cramped, with poor habitability and means of survival. The giant Zentraedi that operated it often found themselves crouching, with some complaining that "It would have been easier had they just walked on their own feet". Many parts of the craft relied on being operated on manually, which increased the fatigue of the pilot. On the other hand, the overall structure was extremely simple, with relatively few failures, making operational rate high.

 

In space, the Regult made use of two booster engines and numerous vernier thrusters to propel itself at very high speeds, capable of engaging and maintaining pace with the U.N. Spacy's VF-1 Valkyrie variable fighter. Within an atmosphere, the Regult was largely limited to ground combat but retained high speed and maneuverability. On land, the Regult was surprisingly fast and agile, too, capable of closing with the VF-1 variable fighter in GERWALK flight (though likely unable to maintain pace at full GERWALK velocity). The Regult was not confined to land operations, though, it was also capable of operating underwater for extended periods of time. Thanks to its boosters, the Regult was capable of high leaping that allowed the pod to cover long distances, surprise enemies and even engage low-flying aircraft.

 

Armed with a variety of direct-fire energy weapons and anti-personnel/anti-aircraft guns, the Regult offered considerable firepower and was capable of engaging both air and ground units. It was also able to deliver powerful kicks. The armor of the body shell wasn't very strong, though, and could easily be penetrated by a Valkyrie's 55 mm Gatling gun pod. Even bare fist attacks of a VF-1 could crack the Regult’s cockpit or immobilize it. The U.N. Spacy’s MBR-07 Destroid Spartan was, after initial battel experience with the Regult, specifically designed to engage the Zentraedi forces’ primary infantry weapon in close-combat.

 

The Regult was, despite general shortcomings, a highly successful design and it became the basis for a wide range of specialized versions, including advanced battle pods for commanders, heavy infantry weapon carriers and reconnaissance/command vehicles. The latter included the Regult Tactical Scout (リガード偵察型). manufactured by electronics specialist Ectromelia. The Tactical Scout variant was a deadly addition to the Zentraedi Regult mecha troops. Removing all weaponry, the Tactical Scout was equipped with many additional sensor clusters and long-range detection equipment. Always found operating among other Regult mecha or supporting Glaug command pods, the Scout was capable of early warning enemy detection as well as ECM/ECCM roles (Electronic Countermeasures/Electronic Counter-Countermeasures). In Space War I, the Tactical Scout was utilized to devastating effect, often providing radar jamming, communication relay and superior tactical positioning for the many Zentraedi mecha forces.

 

At the end of Space War I in January 2012, production of the Regult for potential Earth defensive combat continued when the seizure operation of the Factory Satellite was executed. After the war, Regults were used by both U.N. Spacy and Zentraedi insurgents. Many surviving units were incorporated into the New U.N. Forces and given new model numbers. The normal Regult became the “Zentraedi Battle Pod” ZBP-104 (often just called “Type 104”) and was, for example, used by Al-Shahal's New U.N. Army's Zentraedi garrison. The related ZBP-106 was a modernized version for Zentraedi commanders, with built-in boosters, additional Queadluun-Rhea arms and extra armaments. These primarily replaced the Glaug battle pod, of which only a handful had survived. By 2067, Regult pods of all variants were still in operation among mixed human/Zentraedi units.

  

General characteristics:

Accommodation: pilot only, in standard cockpit in main body

Overall Height: 18.2 meters

Overall Length: 7.6 meters

Overall Width: 12.6 meters

Max Weight: 39.8 metric tons

 

Powerplant & propulsion:

1x 1.3 GGV class Ectromelia thermonuclear reaction furnace,

driving 2x main booster Thrusters and 12x vernier thrusters

 

Performance:

unknown

 

Armament:

None

 

Special Equipment and Features:

Standard all-frequency radar antenna

Standard laser long-range sensor

Ectromelia infrared, visible light and ultraviolet frequency sensor cluster

ECM/ECCM suite

  

The kit and its assembly:

I had this kit stashed away for a couple of years, together with a bunch of other 1:100 Zentraedi pods of all kinds and the plan to build a full platoon one day – but this has naturally not happened so far and the kits were and are still waiting. The “Reconnaissance & Surveillance” group build at whatifmodellers.com in August 2021 was a good occasion and motivation to tackle the Tactical Scout model from the pile, though, as it perfectly fits the GB’s theme and also adds an exotic science fiction/anime twist to the submissions.

 

The kit is an original ARII boxing from 1983, AFAIK the only edition of this model. One might expect this kit to be a variation of the 1982 standard Regult (sometimes spelled “Reguld”) kit with extra parts, but that’s not the case – it is a new mold with different parts and technical solutions, and it offers optional parts for the standard Regult pod as well as the two missile carrier versions that were published at the same time, too. The Tactical Scout uses the same basis, but it comes with parts exclusive for this variant (hull and a sprue with the many antennae and sensors).

 

I remembered from a former ARII Regult build in the late Eighties that the legs were a wobbly affair. Careful sprue inspection revealed, however, that this second generation comes with some sensible detail changes, e. g. the feet, which originally consisted of separate toe and heel sections (and these were hollow from behind/below!). To my biggest surprise the knees – a notorious weak spot of the 1st generation Regult kit – were not only held by small and flimsy vinyl caps anymore: These were replaced with much bigger vinyl rings, fitted into sturdy single-piece enclosures made from a tough styrene which can even be tuned with small metal screws(!), which are included in the kit. Interesting!

 

But the joy is still limited: even though the mold is newer, fit is mediocre at best, PSR is necessary on every seam. However, the good news is that the kit does not fight with you. The whole thing was mostly built OOB, because at 1:100 there's little that makes sense to add to the surface, and the kit comes with anything you'd expect on a Regult Scout pod. I just added some lenses and small stuff behind the large "eye", which is (also to my surprise) a clear part. The stuff might only appear in schemes on the finished model, but that's better than leaving the area blank.

 

Otherwise, the model was built in sub-sections for easier painting and handling, to be assembled in a final step – made possible by the kit’s design which avoids the early mecha kit’s “onion layer” construction, except for the feet. This is the only area that requires some extra effort, and which is also a bit tricky to assemble.

 

However, while the knees appear to be a robust construction, the kit showed some material weakness: while handling the leg assembly, one leg suddenly came off under the knees - turned out that the locator that holds the knee joint above (which I expected to be the weak point) completely broke off of the lower leg! Weird damage. I tried to glue the leg into place, but this did not work, and so I inserted a replacement for the broken. This eventually worked.

  

Painting and markings:

Colorful, but pretty standard and with the attempt to be authentic. However, information concerning the Regults’ paint scheme is somewhat inconsistent. I decided to use a more complex interpretation of the standard blue/grey Regult scheme, with a lighter “face shield” and some other details that make the mecha look more interesting. I used the box art and some screenshots from the Macross TV series as reference; the Tactical Scout pod already appears in episode #2 for the first time, and there are some good views at it, even though the anime version is highly simplified.

 

Humbrol enamels were used, including 48 (Mediterranean Blue), 196 (RAL 7035, instead of pure white), 40 (Pale Grey) and 27 (Sea Grey). The many optics were created with clear acrylics over a silver base, and the large frontal “eye” is a piece of clear plastic with a coat of clear turquoise paint, too.

 

The model received a black ink washing to emphasize details, engraved panel lines and recesses, as well as some light post-shading through dry-brushing. Some surface details were created with decal stripes, e. g. on the upper legs, or with a black fineliner, and some color highlights were distributed all over the hull, e. g. the yellowish-beige tips of the wide antenna or the bright blue panels on the upper legs.

 

The decals were taken OOB, and thanks to a translation chart I was able to decipher some of the markings which I’d interpret as a serial number and a unit code – but who knows?

 

Finally, the kit received an overall coat of matt acrylic varnish and some weathering/dust traces around the feet with simple watercolors – more would IMHO look out of place, due to the mecha’s sheer size in real life and the fact that the Regult has to be considered a disposable item. Either it’s brand new and shiny, or busted, there’s probably little in between that justifies serious weathering which better suits the tank-like Destroids.

  

A “normal” build, even though the model and the topic are exotic enough. This 2nd generation Regult kit went together easier than expected, even though it has its weak points, too. However, material ageing turned out to be the biggest challenge (after all, the kit is almost 40 years old!), but all problems could be overcome and the resulting model looks decent – and it has this certain Eighties flavor! :D

 

Some background:

The VF-1 was developed by Stonewell/Bellcom/Shinnakasu for the U.N. Spacy by using alien Overtechnology obtained from the SDF-1 Macross alien spaceship. The space-capable VF-1's combat debut was on February 7, 2009, during the Battle of South Ataria Island - the first battle of Space War I - and remained the mainstay fighter of the U.N. Spacy for the entire conflict. Introduced in 2008, the VF-1 would be out of frontline service just five years later, though.

 

The VF-1 proved to be an extremely capable craft, successfully combating a variety of Zentraedi mecha even in most sorties which saw UN Spacy forces significantly outnumbered. The versatility of the Valkyrie design enabled the variable fighter to act as both large-scale infantry and as air/space superiority fighter. The basic VF-1 was built and deployed in four minor variants (designated A, J, and S single-seater and the D two-seater/trainer) and its success was increased by continued development of various enhancements including the GBP-1S "Armored" Valkyrie exoskeleton with enhanced protection and integrated missile launchers, the so-called FAST (“Fuel And Sensor Tray”) packs that created the fully space-capable "Super" Valkyries and the additional RÖ-X2 heavy cannon pack weapon system for the VF-1S “Super Valkyrie”.

 

After the end of Space War I, the VF-1 continued to be manufactured both in the Sol system and throughout the UNG space colonies. At the end of 2015 the final rollout of the VF-1 was celebrated at a special ceremony, commemorating this most famous of variable fighters. The VF-1 Valkryie was built from 2006 to 2013 with a total production of 5,459 VF-1 variable fighters with several original variants (VF-1A = 5,093, VF-1D = 85, VF-1J = 49, VF-1S = 30, VF-1G = 12, VE-1 = 122, VT-1 = 68), even though these machines were frequently updated and modified during their career, leading to a wide range of sub-variants and different standards.

 

Although the VF-1 would be replaced in 2020 as the primary Variable Fighter of the U.N. Spacy, a long service record and continued production after the war proved the lasting worth of the design. One of these post-war designs became the VF-1EX, a replica variant of the VF-1J with up-to-date avionics and instrumentation. It was only built in small numbers in the late 2040s and was a dedicated variant for advanced training with dissimilar mock aerial and ground fighting.

 

The only operator of this type was Xaos (sometimes spelled as Chaos), a private and independent military and civilian contractor. Xaos was originally a fold navigation business that began venturing into fold wave communication and information, expanding rapidly during the 2050s and entering new business fields like flight tests and providing aggressor aircraft for military training. They were almost entirely independent from the New United Nations Spacy (NUNS) and was led by the mysterious Lady M. During the Vár Syndrome outbreak, Echo Squadron and Delta Flight and the tactical sound unit Thrones and Walküre were formed to counteract its effects in the Brísingr Globular Cluster.

 

The VF-1EX was restricted to its primary objective and never saw real combat. The replica unit retained the overall basic performance of the original VF-1 Valkyrie, the specifications being more than sufficient for training and mock combat. The only difference was the addition of the contemporary military EG-01M/MP EX-Gear system for the pilot as an emergency standard, an exoskeleton unit with personal inner-wear, two variable geometry wings, two hybrid jet/rocket engines, mechanical hardware for the head, torso, arms and legs. This feature gave the VF-1EX its new designation.

Furthermore, the VF-1EX was also outfitted with other electronic contingency functions like AI-assisted flight and remote override controls. Some of these features could be disabled according to necessity or pilot preferences. The gun pod unit was retained but was usually only loaded with paintball rounds for mock combat. For the same purpose, one of the original Mauler RÖV-20 anti-aircraft laser cannon in the "head unit" was replaced by a long-range laser target designator. AMM-1 missiles with dummy warheads or other training ordnance could be added to the wing hardpoints, but the VF-1EX was never seen being equipped this way - it remained an agile dogfighter.

  

General characteristics:

All-environment variable fighter and tactical combat Battroid. 3-mode variable transformation; variable geometry wing; vertical take-off and landing; control-configurable vehicle; single-axis thrust vectoring; three "magic hand" manipulators for maintenance use; retractable canopy shield for Battroid mode and atmospheric reentry; EG-01M/MP EX-Gear system; option of GBP-1S system, atmospheric-escape booster, or FAST Pack system.

 

Accommodation:

Single pilot in Marty & Beck Mk-7 zero/zero ejection seat

 

Dimensions:

Battroid Mode:

Height 12.68 meters

Width 7.3 meters

Length 4.0 meters

Fighter Mode:

Length 14.23 meters

Wingspan 14.78 meters (at 20° minimum sweep)

Height 3.84 meters

 

Empty weight: 13.25 metric tons

Standard take-off mass: 18.5 metric tons

MTOW: 37.0 metric tons

 

Power Plant:

2x Shinnakasu Heavy Industry/P&W/Roice FF-2001 thermonuclear reaction turbine engines, output 650 MW each, rated at 11,500 kg in standard or in overboost (225.63 kN x 2);

4x Shinnakasu Heavy Industry NBS-1 high-thrust vernier thrusters (1 x counter reverse vernier thruster nozzle mounted on the side of each leg nacelle/air intake, 1 x wing thruster roll control system on each wingtip);

18x P&W LHP04 low-thrust vernier thrusters beneath multipurpose hook/handles

 

Performance:

Battroid Mode: maximum walking speed 160 km/h

Fighter Mode: at 10,000 m Mach 2.71; at 30,000+ m Mach 3.87

g limit: in space +7

Thrust-to-weight ratio: empty 3.47; standard TOW 2.49; maximum TOW 1.24

 

Transformation:

Standard time from Fighter to Battroid (automated): under 5 sec.

Min. time from Fighter to Battroid (manual): 0.9 sec.

 

Armament:

1x Mauler RÖV-20 anti-aircraft laser cannon in the "head" unit, firing 6,000 pulses per minute

1x Howard GU-11 55 mm three-barrel Gatling gun pod with 200 RPG, fired at 1,200 rpm

4x underwing hardpoints for a wide variety of ordnance

  

The kit and its assembly:

The VF-1EX Valkyrie is a Variable Fighter introduced in the Macross Δ television series, and it's, as described above, a replica training variant that resembles outwardly the VF-1J. There's even a Hasegawa 1:72 kit from 2016 of this obscure variant.

However, what I tried to recreate is a virtual (and purely fictional/non-canonical) VF-1EX, re-skinned by someone called David L. on the basis of a virtual VF-1S 3D model with a 2 m wing span (sounds like ~1:8 scale) for the Phoenix R/C simulator software. Check this for reference: www.supermotoxl.com/projects-articles/ready-to-drive-fly-...). How bizarre can things be/become? And how sick is a hardware model of it, though...?

 

I found the complex livery very attractive and had the plan to build a 1:100 model for some years now. But it took this long to gather enough mojo to tackle this project, due to the tricolor paint scheme's complex nature...

The "canvas" for this stunt is a vintage Arii 1:100 VF-1 kit, built OOB except for some standard mods. The kit was actually a VF-1A, but I had a spare VF-1J head unit in store as a suitable replacement. Externally, some dorsal blade aerials and vanes on the nose were added, the attachment points under the wings for the pylons were PSRed away. A pilot figure was added to the cockpit because this model would be displayed in flight. As a consequence, the ventral gun pod received an adapter at its tail and I added one of my home-brew wire displays, created on the basis of the kit's OOB plastic base.

  

Painting and markings:

As mentioned above, this VF-1 is based on a re-skinned virtual R/C model, and its creator apparently took inspiration from a canonical VF fighter, namely a VF-31C "Siegfried", and specifically the "Mirage Farina Jenius Custom" version from the Macross Δ series that plays around 2051. Screenshots from the demo flight video under the link above provided various perspectives as painting reference, but the actual implementation on the tiny model caused serious headaches.

The VF-1's shapes are rather round and curvy, the model's jagged surface and small size prohibited masking. The kit is IMHO also best built and painted in single sub-assemblies, but upon closer inspection the screenshots revealed some marking inconsistencies (apparently edited from various videos?), and certain areas were left uncertain, e .g. the inside of the legs or the whole belly area. Therefore, this model is just a personal interpretation of the design, and as such I also deviated in the markings.

 

The paints became Humbrol 20 (Crimson) and 58 (Magenta), plus Revell 301 (Semi-gloss White), and they were applied with brushes. To replicate the edgy and rather fragmented pattern I initially laid down the two reds in a rather rough and thin fashion and painted the white dorsal and ventral areas. Once thoroughly dry, the white edges were quasi-masked with white decal material, either with stripes of various widths or tailored from sheet material, e. g. for the "wedges" on the wings and fins and the dorsal "swallow tail". This went more smoothly than expected, with a very convincing and clean result that i'd never had achieved with brushes alone, even with masking attempts, which would probably have led to chaos and too much paint on the model.

 

Other details like the grey leading edges or the air intakes were created with grey and black decal material, too.

No weathering was done, since the aircraft would be clean and in pristine condition, but I used a soft pencil to emphasize the engraved panel lines, esp. on white background. The gun pod became grey and the exhausts, painted in Revell 91 (Iron), were treated with graphite for a darker shade and a more metallic look.

 

Stencils came from the kit's OOB sheet, but only a few, since there was already a lot "going on" on the VF-1's hull. The flash-shaped Xaos insignia and the NUNS markings on legs and wings were printed at home - as well as the small black vernier thrusters all around the hull, for a uniform look. The USN style Modex and the small letter code on the fins came from an Colorado Decals F-5 sheet, for an aggressor aircraft.

 

Finally, the kit was sealed overall with semi-gloss acrlyic varnish (which turned out glossier than expected...) and position lights etc. added with translucent paint on top of a silver base.

  

Well, while the VF-1 was built OOB with no major mods and just some cosmetical upgrades, the paint scheme and its finish were more demanding - and I am happy that the "decal masking" trick worked so fine. The paint scheme surely is attractive, even though it IMHO does not really takes the VF-1's lines into account. Nevertheless, I am certain that there are not many models that are actually based on a virtual 1:8 scale 3D model of an iconic SF fighter, so that this VF-1EX might be unique.

 

+++ DISCLAIMER +++

Nothing you see here is real, even though the conversion or the presented background story might be based historical facts. BEWARE!

 

Some background

The Focke Wulf Ta 338 originated as a response of request by the RLM in mid 1943 for an aircraft capable of vertical takeoff and landing (VTOL), optimized for the interceptor and point defense role and without a hazardous liquid rocket engine as means of propulsion. In the course of the year, several German manufacturers responded with a multitude of highly innovative if not unusual design, including Heinkel with the ducted fan project "Lerche", Rheinmetall-Borsig with a jet-powered tailsitter, and Focke Wulf. This company’s engineering teams submitted two designs: the revolutionary "Triebflügel" concept and the more conservative, yet still futuristic "P.03.10338" tail sitter proposal, conceived by Focke Wulf’s leading engineer Kurt Tank and Walter Kappus from BMW, responsible for the engine development.

 

The P.03.10338 was based on the proven Fw 190 fighter, but the similarities were only superficial. Only the wings and a part of the fuselage structure around the cockpit would be used, but Tank assumed that using existing parts and tools would appreciably reduce development and production time.

A great part of the fuselage structure had to be re-designed to accommodate a powerful BMW 803 engine and its integral gearbox for an eight-bladed contraprop.

 

The BMW 803 was BMW's attempt to build a high-output aircraft engine, primarily for heavy bombers, by basically "coupling" two BMW 801 engines back-to-back into a single and very compact power unit. The result was a 28-cylinder, four-row radial engine, each comprising a multiple-bank in-line engine with two cylinders in each bank, which, due to cooling concerns, were liquid cooled.

 

This arrangement was from the start intended to drive independent contra-rotating propellers, in order to avoid stiffness problems with the whole engine driving just a single crankshaft and also to simply convert the raw power of this unit into propulsion. The front half of the engine drove the front propeller directly, while the rear engine drove a number of smaller shafts that passed between the cylinders of the front engine before being geared back together to drive the rear prop. This complex layout resulted in a rather large and heavy gearbox on the front of the engine, and the front engine needing an extended shaft to "clear" that gearbox. The four-row 803 engine weighed 2,950 kg (6,490 lb) dry and 4,130 kg (9,086 lb) fully loaded, and initial versions delivered 3,900 PS (3,847 hp; 2,868 kW).

 

While the engine was heavy and there were alternatives with a better weight/output ratio (e. g. the Jumo 222), the BMW 803 was favored for this project because it was the most powerful engine available, and it was relatively compact so that it could be fitted into a fighter's airframe. On the P.03.10338 it drove an all-metal, eight-blade contraprop with a diameter of 4,25 m (13 ft 11 in).

 

In order to accept this massive engine, the P.03.10338’s structure had to be stiffened and the load-bearing structures re-arranged. The aircraft kept the Fw 190's wing structure and surface, but the attachment points at the fuselage had to be moved for the new engine mount, so that they ended up in mid position. The original space for the Fw 190's landing gear was used for a pair of radiator baths in the wings' inner leading edge, the port radiator catering to the front engine half while the radiator on starboard was connected with the rear half. An additional annular oil and sodium cooler for the gearbox and the valve train, respectively, was mounted in the fuselage nose.

 

The tail section was completely re-designed. Instead of the Fw 190's standard tail with fin and stabilizers the P.03.10338’s tail surfaces were a reflected cruciform v-tail (forming an x) that extended above and below the fuselage. On the four fin tips, aerodynamic bodies carried landing pads while the fuselage end contained an extendable landing damper. The pilot sat in a standard Fw 190 cockpit, and the aircraft was supposed to start and land vertically from a mobile launch pad. In the case of an emergency landing, the lower stabilizers could be jettisoned. Nor internal armament was carried, instead any weaponry was to be mounted under the outer wings or the fuselage, in the form of various “Rüstsätze” packages.

 

Among the many exotic proposals to the VTOL fighter request, Kurt Tank's design appeared as one of the most simple options, and the type received the official RLM designation Ta 338. In a rush of urgency (and maybe blinded by clever Wunderwaffen marketing from Focke Wulf’s side), a series of pre-production aircraft was ordered instead of a dedicated prototype, which was to equip an Erprobungskommando (test unit, abbreviated “EK”) that would evaluate the type and develop tactics and procedures for the new fighter.

 

Fueled by a growing number of bomber raids over Germany, the “EK338” was formed as a part of JG300 in August 1944 in Schönwalde near Berlin, but it took until November 1944 that the first Ta 338 A-0 machines were delivered and made operational. These initial eight machines immediately revealed several flaws and operational problems, even though the VTOL concept basically worked and the aircraft flew well – once it was in the air and cruising at speeds exceeding 300 km/h (186 mph).

 

Beyond the many difficulties concerning the aircraft’s handling (esp. the landing was hazardous), the lack of a landing gear hampered ground mobility and servicing. Output of the BMW 803 was sufficient, even though the aircraft had clear limits concerning the take-off weight, so that ordnance was limited to only 500 kg (1.100 lb). Furthermore, the noise and the dust kicked up by starting or landing aircraft was immense, and servicing the engine or the weapons was more complicated than expected through the high position of many vital and frequently tended parts.

 

After three Ta 338 A-0 were lost in accidents until December 1944, a modified version was ordered for a second group of the EK 338. This led to the Ta 338 A-1, which now had shorter but more sharply swept tail fins that carried single wheels and an improved suspension under enlarged aerodynamic bodies.

This machine was now driven by an improved BMW 803 A-2 that delivered more power and was, with an MW-50 injection system, able to produce a temporary emergency output of 4.500 hp (3.308 kW).

 

Vertical start was further assisted by optional RATO units, mounted in racks at the rear fuselage flanks: either four Schmidding SG 34 solid fuel booster rockets, 4.9 kN (1,100 lbf) thrust each, or two larger 9.8 kN (2,203 lbf) solid fuel booster rockets, could be used. These improvements now allowed a wider range of weapons and equipment to be mounted, including underwing pods with unguided rockets against bomber pulks and also a conformal pod with two cameras for tactical reconnaissance.

 

The hazardous handling and the complicated maintenance remained the Ta 338’s Achilles heel, and the tactical benefit of VTOL operations could not outbalance these flaws. Furthermore, the Ta 338’s range remained very limited, as well as the potential firepower. Four 20mm or two 30mm cannons were deemed unsatisfactory for an interceptor of this class and power. And while bundles of unguided missiles proved to be very effective against large groups of bombers, it was more efficient to bring these weapons with simple and cheap vehicles like the Bachem Ba 349 Natter VTOL rocket fighter into target range, since these were effectively “one-shot” weapons. Once the Ta 338 fired its weapons it had to retreat unarmed.

 

In mid 1945, in the advent of defeat, further tests of the Ta 338 were stopped. I./EK338 was disbanded in March 1945 and all machines retreated from the Eastern front, while II./EK338 kept defending the Ruhrgebiet industrial complex until the Allied invasion in April 1945. Being circled by Allied forces, it was not possible to evacuate or destroy all remaining Ta 338s, so that at least two more or less intact airframes were captured by the U.S. Army and later brought to the United States for further studies.

  

General characteristics:

Crew: 1

Length/height on the ground: 10.40 m (34 ft 2 in)

Wingspan: 10.50 m (34 ft 5 in)

Fin span: 4:07 m (13 ft 4 in)

Wing area: 18.30 m² (196.99 ft²)

Empty weight: 11,599 lb (5,261 kg)

Loaded weight: 16,221 lb (7,358 kg)

Max. takeoff weight: 16,221 lb (7,358 kg)

 

Powerplant:

1× BMW 803 A-2 28-cylinder, liquid-cooled four-row radial engine,

rated at 4.100 hp (2.950 kW) and at 4.500 hp (3.308 kW) with emergency boost.

4x Schmidding SG 34 solid fuel booster rockets, 4.9 kN (1,100 lbf) thrust each, or

2x 9.8 kN (2,203 lbf) solid fuel booster rockets

 

Performance:

Maximum speed: 860 km/h (534 mph)

Cruise speed: 650 km/h (403 mph)

Range: 750 km (465 ml)

Service ceiling: 43,300 ft (13,100 m)

Rate of climb: 10,820 ft/min (3,300 m/min)

Wing loading: 65.9 lb/ft² (322 kg/m²)

 

Armament:

No internal armament, any weapons were to be mounted on three hardpoints (one under the fuselage for up to 1.000 kg (2.200 lb) and two under the outer wings, 500 kg (1.100 lb) each. Total ordnance was limited to 1.000 kg (2.200 lb).

 

Various armament and equipment sets (Rüstsätze) were tested:

R1 with 4× 20 mm (.79 in) MG 151/20 cannons

R2 with 2x 30 mm (1.18 in) MK 213C cannons

R3 with 48x 73 mm (2.874 in) Henschel Hs 297 Föhn rocket shells

R4 with 66x 55 mm (2.165 in) R4M rocket shells

R5 with a single 1.000 kg (2.200 lb) bomb under the fuselage

R6 with an underfuselage pod with one Rb 20/20 and one Rb 75/30 topographic camera

  

The kit and its assembly:

This purely fictional kitbashing is a hardware tribute to a highly inspiring line drawing of a Fw 190 VTOL tailsitter – actually an idea for an operational RC model! I found the idea, that reminded a lot of the Lockheed XFV-1 ‘Salmon’ prototype, just with Fw 190 components and some adaptations, very sexy, and so I decided on short notice to follow the urge and build a 1:72 version of the so far unnamed concept.

 

What looks simple (“Heh, it’s just a Fw 190 with a different tail, isn’t it?”) turned out to become a major kitbashing. The basis was a simple Hobby Boss Fw 190 D-9, chose because of the longer tail section, and the engine would be changed, anyway. Lots of work followed, though.

 

The wings were sliced off and moved upwards on the flanks. The original tail was cut off, and the cruciform fins are two pairs of MiG-21F stabilizers (from an Academy and Hasegawa kit), outfitted with reversed Mk. 84 bombs as aerodynamic fairings that carry four small wheels (from an 1:144 T-22M bomber) on scratched struts (made from wire).

 

The cockpit was taken OOB, only a pilot figure was cramped into the seat in order to conceal the poor interior detail. The engine is a bash from a Ju 188’s BMW 801 cowling and the original Fw 190 D-9’s annular radiator as well as a part of its Jumo 213 cowling. BMW 801 exhaust stubs were inserted, too, and the propeller comes from a 1:100 VEB Plasticart Tu-20/95 bomber.

 

Since the BMW 803 had liquid cooling, radiators had to go somewhere. The annular radiator would certainly not have been enough, so I used the space in the wings that became available through the deleted Fw 190 landing gear (the wells were closed) for additional radiators in the wings’ leading edges. Again, these were scratched with styrene profiles, putty and some very fine styrene mesh.

 

As ordnance I settled for a pair of gun pods – in this case these are slipper tanks from a Hobby Boss MiG-15, blended into the wings and outfitted with hollow steel needles as barrels.

  

Painting and markings:

Several design options were possible: all NMF with some colorful markings or an overall RLM76 finish with added camouflage. But I definitively went for a semi-finished look, inspired by late WWII Fw 190 fighters.

 

For instance, the wings’ undersides were partly left in bare metal, but the rudders painted in RLM76 while the leading edges became RLM75. This color was also taken on the wings’ upper sides, with RLM82 thinly painted over. The fuselage is standard RLM76, with RLM82 and 83 on the upper side and speckles on the flanks. The engine cowling became NMF, but with a flashy ‘Hartmann Tulpe’ decoration.

 

Further highlights are the red fuselage band (from JG300 in early 1945) and the propeller spinner, which received a red tip and segments in black and white on both moving propeller parts. Large red “X”s were used as individual aircraft code – an unusual Luftwaffe practice but taken over from some Me 262s.

 

After a light black ink wash some panel shading and light weathering (e.g. exhaust soot, leaked oil, leading edges) was done, and the kit sealed under matt acrylic varnish.

  

Building this “thing” on the basis of a line drawing was real fun, even though challenging and more work than expected. I tried to stay close to the drawing, the biggest difference is the tail – the MiG-21 stabilizers were the best option (and what I had at hand as donation parts), maybe four fins from a Hawker Harrier or an LTV A-7 had been “better”, but now the aircraft looks even faster. ;)

Besides, the Ta 338 is so utterly Luft ’46 – I am curious how many people might take this for real or as a Hydra prop from a contemporary Captain America movie…

Capable of firing between a thirty- and seventy-degree angle, this gun typically found itself in an indirect fire role but could be direct-fired at a shallow angle if direly necessary. Unlike the Anti-Armor Field Gun, it fires a large projectile at relatively low velocity and is better suited against infantry, light vehicles, and fortifications than armored targets.

 

(wheel adjusts mortar elevation when spun)

 

Flying squirrels are not capable of flight like birds or bats; instead, they glide between trees. They are capable of obtaining lift within the course of these flights, with flights recorded to 90 meters (295 ft). The direction and speed of the animal in midair are varied by changing the positions of its limbs, largely controlled by small cartilaginous wrist bones. The wrist is connected to the styliform cartilage, which forms a wing tip used during gliding. After being extended, the wing tip may adjust to various angles, controlling aerodynamic movements. The wrist also changes the tautness of the patagium, a furry parachute-like membrane that stretches from wrist to ankle. It has a fluffy tail that stabilizes in flight. The tail acts as an adjunct airfoil, working as an air brake before landing on a tree trunk.

 

The colugos, Petauridae, and Anomaluridae are gliding mammals which are similar to flying squirrels because of convergent evolution. These mammals can glide through the trees, but they do not actually fly (like birds and bats). They have a membrane of skin on either side of their body.

 

Prior to the 21st century, the evolutionary history of the flying squirrel was frequently debated. This debate was clarified greatly as a result of two molecular studies. These studies found support that flying squirrels originated 18–20 million years ago, are monophyletic, and have a sister relationship with tree squirrels. Due to their close ancestry, the morphological differences between flying squirrels and tree squirrels reveal insight into the formation of the gliding mechanism. Compared to squirrels of similar size, flying squirrels, northern and southern flying squirrels show lengthening in bones of the lumbar vertebrae and forearm, whereas bones of the feet, hands, and distal vertebrae are reduced in length. Such differences in body proportions reveal the flying squirrels’ adaptation to minimize wing loading and to increase more maneuverability while gliding.

 

Several hypotheses have attempted to explain the evolution of gliding in flying squirrels. One possible explanation is related to energy efficiency and foraging. Gliding is an energetically efficient way to progress from one tree to another while foraging, as opposed to climbing down trees and maneuvering on the ground floor or executing dangerous leaps in the air. By gliding at high speeds, flying squirrels can rummage through a greater area of forest more quickly than tree squirrels. Flying squirrels can glide long distances by increasing their aerial speed and increasing their lift.Other hypotheses state that the mechanism evolved to avoid nearby predators and prevent injuries. If a dangerous situation arises on a specific tree, flying squirrels can glide to another, and thereby typically escape the previous danger. Furthermore, take-off and landing procedures during leaps, implemented for safety purposes, may explain the gliding mechanism. While leaps at high speeds are important to escape danger, the high-force impact of landing on a new tree could be detrimental to a squirrel’s health. Yet the gliding mechanism of flying squirrels involves structures and techniques during flight that allow for great stability and control. If a leap is miscalculated, a flying squirrel may easily steer back onto the original course by using its gliding ability. A flying squirrel also creates a large glide angle when approaching its target tree, decreasing its velocity due to an increase in air resistance and allowing all four limbs to absorb the impact of the target.

Some background:

The VF-1 was developed by Stonewell/Bellcom/Shinnakasu for the U.N. Spacy by using alien Overtechnology obtained from the SDF-1 Macross alien spaceship. Its production was preceded by an aerodynamic proving version of its airframe, the VF-X. Unlike all later VF vehicles, the VF-X was strictly a jet aircraft, built to demonstrate that a jet fighter with the features necessary to convert to Battroid mode was aerodynamically feasible. After the VF-X's testing was finished, an advanced concept atmospheric-only prototype, the VF-0 Phoenix, was flight-tested from 2005 to 2007 and briefly served as an active-duty fighter from 2007 to the VF-1's rollout in late 2008, while the bugs were being worked out of the full-up VF-1 prototype (VF-X-1).

 

The space-capable VF-1's combat debut was on February 7, 2009, during the Battle of South Ataria Island - the first battle of Space War I - and remained the mainstay fighter of the U.N. Spacy for the entire conflict. Introduced in 2008, the VF-1 would be out of frontline service just five years later, though.

 

The VF-1 proved to be an extremely capable craft, successfully combating a variety of Zentraedi mecha even in most sorties which saw UN Spacy forces significantly outnumbered. The versatility of the Valkyrie design enabled the variable fighter to act as both large-scale infantry and as air/space superiority fighter. The signature skills of U.N. Spacy ace pilot Maximilian Jenius exemplified the effectiveness of the variable systems as he near-constantly transformed the Valkyrie in battle to seize advantages of each mode as combat conditions changed from moment to moment.

 

The basic VF-1 was built and deployed in four minor variants (designated A, J, and S single-seater and the D two-seater/trainer) and its success was increased by continued development of various enhancements including the GBP-1S "Armored" Valkyrie exoskeleton with enhanced protection and integrated missile launchers, the so-called FAST (“Fuel And Sensor Tray”) packs that created the fully space-capable "Super" Valkyries and the additional RÖ-X2 heavy cannon pack weapon system for the VF-1S “Super Valkyrie”.

 

After the end of Space War I, the VF-1 continued to be manufactured both in the Sol system and throughout the UNG space colonies. Although the VF-1 would be replaced in 2020 as the primary Variable Fighter of the U.N. Spacy by the more capable, but also much bigger, VF-4 Lightning III, a long service record and continued production after the war proved the lasting worth of the design.

In the course of its career the versatile VF-1 underwent constant upgrade programs. For instance, about a third of all VF-1 Valkyries were upgraded with Infrared Search and Track (IRST) systems from 2016 on, placed in a streamlined fairing in front of the cockpit. This system allowed for long-range search and track modes, freeing the pilot from the need to give away his position with active radar emissions, and it could be used for target illumination and guiding precision weapons. Many Valkyries also received improved radar warning systems, with receivers, depending on the systems, mounted on the wingtips, on the fins and/or on the LERXs. Improved ECR measures were also mounted on some machines, typically in conformal fairings on the flanks of the legs/engine pods. Specialized reconnaissance and ECM sub-versions were developed from existing airframes, too.

 

The VF-1 was without doubt the most recognizable variable fighter of Space War I and was seen as a vibrant symbol of the U.N. Spacy even into the first year of the New Era 0001 in 2013. At the end of 2015 the final rollout of the VF-1 was celebrated at a special ceremony, commemorating this most famous of variable fighters. The VF-1 Valkryie was built from 2006 to 2013 with a total production of 5,459 VF-1 variable fighters with several variants (VF-1A = 5,093, VF-1D = 85, VF-1J = 49, VF-1S = 30, VF-1G = 12, VE-1 = 122, VT-1 = 68). However, beyond this original production several “re-built” variants existed, too, and remained active in many second line units and continued to show its worthiness years later, e. g. through Milia Jenius who would use her old VF-1 fighter in defense of the colonization fleet, even after 35 years after the type's service introduction!

  

General characteristics:

All-environment variable fighter and tactical combat Battroid, used by U.N. Spacy, U.N. Navy, U.N. Space Air Force. 3-mode variable transformation; variable geometry wing; vertical take-off and landing; control-configurable vehicle; single-axis thrust vectoring; three "magic hand" manipulators for maintenance use; retractable canopy shield for Battroid mode and atmospheric reentry; option of GBP-1S system, atmospheric-escape booster, or FAST Pack system

 

Accommodation:

Single pilot in Marty & Beck Mk-7 zero/zero ejection seat

 

Dimensions:

Battroid Mode:

Height 12.68 meters

Width 7.3 meters

Length 4.0 meters

Fighter Mode:

Length 14.23 meters

Wingspan 14.78 meters (at 20° minimum sweep)

Height 3.84 meters

 

Empty weight: 13.25 metric tons

Standard take-off mass: 18.5 metric tons

MTOW: 37.0 metric tons

 

Power Plant:

2x Shinnakasu Heavy Industry/P&W/Roice FF-2001 thermonuclear reaction turbine engines, output 650 MW each, rated at 11,500 kg in standard or in overboost (225.63 kN x 2);

4x Shinnakasu Heavy Industry NBS-1 high-thrust vernier thrusters (1 x counter reverse vernier thruster nozzle mounted on the side of each leg nacelle/air intake, 1 x wing thruster roll control system on each wingtip);

18x P&W LHP04 low-thrust vernier thrusters beneath multipurpose hook/handles

 

Performance:

Battroid Mode: maximum walking speed 160 km/h

Fighter Mode: at 10,000 m Mach 2.71; at 30,000+ m Mach 3.87

g limit: in space +7

Thrust-to-weight ratio: empty 3.47; standard TOW 2.49; maximum TOW 1.24

 

Transformation:

Standard time from Fighter to Battroid (automated): under 5 sec.

Min. time from Fighter to Battroid (manual): 0.9 sec.

 

Armament:

1x Mauler RÖV-20 anti-aircraft laser cannon in the "head" unit, firing 6,000 pulses per minute

1x Howard GU-11 55 mm three-barrel Gatling gun pod with 200 RPG, fired at 1,200 rds/min

4x underwing hard points for a wide variety of ordnance, including

12x AMM-1 hybrid guided multipurpose missiles (3/point), or

12x MK-82 LDGB conventional bombs (3/point), or

6x RMS-1 large anti-spaceship reaction missiles (2/outboard point, 1/inboard point), or

4x UUM-7 micro-missile pods (1/point) each carrying 15 x Bifors HMM-01 micro-missiles,

or a combination of above load-outs and other guided and unguided ordnance

  

The kit and its assembly:

After a long time, I found enough mojo to tackle another ARII 1:100 VF-1, but this time in Battroid mode. Unlike the simple Fighter mode kits, ARII’s Battroid kit of the iconic Valkyrie is more demanding and calls for some structural modifications to create a decent and presentable “giant robot” model – OOB, the model remains quite two-dimensional and “stiff”. The much newer WAVE kit in 1:100 scale is certainly a better model of the VF-1, but I love the old ARII kits because of their simplicity.

 

The kit is a “Super Valykrie” model, but it donated its FAST pack extra parts to a space-capable VF-1 Fighter build a long time ago and has been collecting dust in The Stash™ (SF/mecha sub-department at the Western flank) since then. The complete Battroid model was still left, though, even with most of the decals, and when I recently searched for artwork/visual references for another Macross project I came across screenshots from the original TV series of a canonical VF-1 that I had been planning to build for some years, and so I eventually set things in motion.

 

The kit was basically built OOB, but it received some upgrades. More severe surgery would be necessary to create a “good” Battroid model – e. g. creating vertical recesses around the torso – but this is IMHO not worthwhile. These updates included additional joints in the upper arms and legs, created with styrene tubes, as well as a new hip construction made from coated steel wire and styrene tube material that allows a three-dimensional posture of the legs - for a more vivid appearance and more dynamic poses. Other small mods that enhance the overall impression are “opened” exhausts inside of the feet and a different, open left hand. The GU-11 pod/handgun was taken OOB, it just received a shoulder belt created with painted masking tape. The single laser cannon on the head received a fairing made from paper tissue drenched with white glue.

 

Even though the model kit itself is not complex, it is a very early mecha kit: the VF-1 Battroids already came with vinyl caps (some of the contemporary ARII Macross models did not feature these useful items yet), but the model was constructed in an “onion layer” fashion that makes building and painting a protracted affair, esp. on arms and legs. You are supposed to finish a certain section, and then you add the next section like a clamp, while areas of the initial section become inaccessible for sanding and painting inside of the new section. You can only finish the single sections up to basic painting, mask them, and then add the next stage. Adding some joints during the construction phase helped but building an ARII VF-1 Battroid simply takes time and patience…

  

Painting and markings:

As mentioned above, this Valkyrie’s livery is canonical and it depicts a so-called “Alaska Guard” VF-1, based at the U.N. Spacy’s headquarters at Eielson Air Force Base in the far North of the United States around 2008/9. Several Battroid mode VF-1s in this guise appear during episode #15 of the original Macross TV series and offer a good look at their front and back, even though close inspection reveals that the livery was – intentionally or incidentally – not uniform! There are subtle differences between the VF-1s from the same unit, so that there’s apparently some room for artistic freedom.

However, this rather decorative livery IMHO works best on a VF-1 Battroid model, because the green areas, esp. on head and arms, mostly disappears when the Valkyrie transforms into Fighter mode – in the original TV livery the VF-1 is completely white from above, just with green wing tips and rudders on the V-tail.

 

A full profile of an “Alaska Guard” VF-1 with more details concerning markings and stencils can furthermore be found in Softbank Publishing’s (discontinued) “Variable Fighter Master File VF-1 Valkyrie” source book, even though these drawings show further differences to the original TV appearance. In the book the unit is identified as SVF-15 “Blue Foxes”, evolved from the real USAF’s 18th Aggressor Squadron in 2008. Looking at the VF-1’s colors, this unit name appears a bit odd, because the livery is basically all-white with olive-green trim? This could be a simple translation issue, though, because “blue” and “green” are in written Japanese described with the same kanji (青, “ao”). On the other side, the 18th Aggressor Squadron was/is nicknamed “Blue Foxes”? Strange, strange…

 

To ease painting, the model was built in sub-assemblies (see comments above) and treated separately. To avoid brush painting mess with the basic white, the sub-sections received a coat of very light grey (RAL 7047 Telegrau) and a pure white tone, both applied from rattle cans with an attempt to create a light shading effect. The green trim and further details were added with brushes. I used Revell 360 (Fern Green, RAL 6025), because it is a strong but still somewhat dull/subdued tone that IMHO matches the look from the TV series well. Some detail areas like the air intake louvres, the hollow of the knees and the handgun were painted in medium grey (Humbrol 140), so that the contrast to the rest was not too strong. The “feet” received an initial coat of Humbrol 53 (Iron) as a dark primer.

 

In “reality”, parts of the VF-1’s torso in Battroid mode are actually open – the kit is very simplified. To create an optical illusion of this trench and to visually “stretch” the rather massive breast section, the respective areas were painted with dark grey (Humbrol 79). There are also many position lights all around the hull; these were initially laid out with silver, the bigger ones received felt tip pen details, and they were later overlaid with clear acrylic paints.

 

Once the basic painting had been done, a light black ink washing was applied to the parts to emphasize engraved panel lines and recesses. After that the jet exhaust ‘feet’ were painted with Humbrol’s Steel Metallizer and some post-shading through dry-brushing was done, concentrating on the green areas. This was rather done for visual plasticity than for a worn look: this Valkyrie was supposed to look quite bright and clean, after all it’s from a headquarter unit and not an active frontline vehicle.

The feet received a thorough graphite treatment, so that the Metallizer’s shine was further enhanced. Some surface details that were not molded into the parts (esp. around the shoulders and the covers of the main landing gear) were painted with a thin black felt tip pen.

 

Stencils and markings were taken from the kit’s OOB decal sheet. The thin bands around the arms and legs were created with generic 1mm decal strips and all the vernier thrusters (sixteen are visible on the Battroid) were created with home-printed decals – most of them are molded into the parts and apparently supposed to be painted, but the decals are a tidier and more uniform solution.

 

Before the final assembly, the parts received a coat with matt acrylic varnish. As final measures some black panel lines were emphasized with a felt tip pen and color was added to several lamps and small windows with clear paints.

  

I can hardly remember when I built my last VF-1 Battroid, but tackling this one after a long while was a nice distraction from my usual what-if builds. I am pleased that this model depicts a canonical Valkyrie from the original TV series beyond the well-known “hero” liveries. Furthermore, green is a rare color among VF-1 liveries, so that it is even more “collectible”.

While the vintage ARII kit is a rather limited affair, adding some joints considerably improved the model’s impression, even though there are definitively better kit options available today when you want to build a 1:100 Battroid — but these do certainly not provide this authentic “Eighties feeling”.

 

"Love alone is Capable of uniting living beings in such a way as to complete and fulfil them,

for it alone takes them and joins them by what is deepest in themselves"

(Pirre Teilhard de Chardin 1881-1953)

 

taken in St Stephens Green in Dublin...

Love getting images that show how we are living today....just sitting around and enjoying the company of people we love....

 

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Thanks for stopping by and having a look...love to hear what you think....

Yuri: *sighs* “I am just as troubled over it as you are, Kumi, but I do not know what you wish me to do. I am normally capable of vanquishing any problem that presents itself, but this is beyond even my remarkable abilities. Even if we had a dress flown in directly, we still would not have the time to accouter it properly, and you and I both know that fit is as important as the garment itself!”

 

Kumi: *props her chin on her hand, brow furrowed* “There has to be a way. Magpie is a gown girl down to the tips of her pale pink toes. You know she doesn’t play concerts because she loves the violin, right? She does it for the wardrobe. The gowns...*slaps her hand over her heart, voice dripping with emotion* she does it for the gowns, Ri-Ri.”

 

Yuri: *I know! I know she does! *runs her fingers through her bangs, distraught* I am also aware that on the most important day of her life to date, she should be in the most elaborate gown of them all, but there is simply nothing to be done about it!”

 

Yuri & Kumi: *exchange unhappy looks*

 

Magpie: *skips into the room, grabs an apple out of the basket, boosts herself onto the counter and greets the twins in a singsong voice* “Huuullo! What’s the bubble, double, double toil and trouble?”

 

Yuri & Kumi: *faces grave* “Magpie.”

 

Magpie: *stops with the apple midway to her mouth, perplexed by the twins’ gloomy demeanors* “Uh-oh, what’s wrong?”

 

Emma: *enters behind Magpie* “Have any o’ you lot seen Z? I canna…*stops short at the sight of the twins’ despondent expressions* Uh-oh, whit’s wrong?”

 

Fashion Credits

**Any doll enhancements (i.e. freckles, piercings, eye color changes) were done by me unless otherwise stated.**

 

Yuri

Shorts: Randal Craig RTW – Lilli Style Redeux

Top: Momoko – Lacy Modernist (FYI: Does not fit the NF body without some ‘help’ in the back.)

Shoes: IT – Fashion Royalty – High Tide Vanessa

Brooch/Pin: BFMC – Equestrian Fashion

Bracelet: me

 

Dolls is a Nu.Fantasy Little Red Riding Hood Yuri transplanted to a NuFace body.

 

Kumi

Skirt: Clear lan

Top: IT – NuFace – Lady in Red Erin

Shoes: IT – Fashion Royalty – Paparazzi Bait Adele

Necklace: Origin Unknown

Aqua Bracelet: IT – NuFace – Lady in Red Erin

Gold Bracelet: me

 

Dolls is a Nu.Fantasy Wild Wolf Kumi transplanted to a NuFace body.

 

Magpie

Dress: Mattel – Playline – Fashion Fever Doll

Jacket: Sakurana

Shoes: Randall Craig RTW – Summertime

Brooch/Pin: BFMC

Earrings: me

 

Doll is a Wild at Heart Lilith re-rooted by the brilliant valmaxi(!!!).

 

Emma

Dress & Shorties: shortcut/Patty

Sandals: Mattel – Barbie Collector – Trina Turk Malibu Barbie

Necklace & Bracelets: me

 

Doll is a Style Mantra Eden.