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Madpea is having a fun free hunt this weekend. Collect the robot pieces and build your very own robot friend just like mine. You do have to join the free Madpea group to play, clues are given. Fun hunt. Thanks Madpea!
"this is a build for the Hibernia group, and is not attached to the assault cannon."
the concorp. H-10 single persons VIP polar rover, is used by the wardens of concorp. as personal transportation, in order to keep up with the mobile workplace, it has all the amenities needed for single occupant living.
the next few builds are going to be hibernia focused, as i look and think of inspiration for the next few builds, any questions leave in the comments.
more pictures: www.artstation.com/thormagniss
wips: twitter.com/TitenStudios
A late build Plaxton Viewmaster on a Leyland Tiger chassis used on crew transfer work by British Airways is seen here in between duties at Manchester Airport in 1994. The coach was new to BA in late 1981 and was initially based at London Heathrow before moving north.
The Viewmaster was a taller version of the Supreme III or IV, with the height increased by approximately 10 inches. This did initially cause some problems as the initial models were too top heavy and were liable to fall over, so modifications was needed to the original design to lower the centre of gravity. The designers claimed that the original design would not fall over, but the engineers argued otherwise and were eventually proven right. The windscreen on the Viewmaster was a taller version of that used on the Supreme III, and was retained unaltered for the Viewmaster IV. Both were also available to "express" specification, as the Viewmaster Express and Viewmaster IV Express respectively, this one being the former model.
The very first BUILD Insights post, highlighting the rebuilding of my Transamerica Pyramid piece, is up on my Patreon page! Available to all IONIC patrons and above, this is the first of many posts to come that highlight the engineering involved throughout the building process, providing extensive documentation and diagrams to help shed some light on previously unrevealed techniques.
I can't tell you how happy I am to finally be able to pull back the curtain a bit on a platform that doesn't strictly limit image resolution or continual text!
To follow along with the exclusive content I'll be offering as SPQR gets underway, please consider becoming a patron on my Patreon page. ➡️🔗⬅️
Festina Lente!
Contrary to Benedictines, who liked to build on top of hills or near towns, their Cistercian offshoots preferred secluded, far-away valleys with abundant water.
Mazan, in the département of Ardèche (southeastern France), is a good example: there is a stream flowing nearby, and the village began to exist only after the abbey was completed, which must have been around 1123, when the church was consecrated. It was then the largest church ever built in the province of Vivarais.
The abbey of Mazan is the mother of the famous “Three Sisters of Provence”, the Cistercian abbeys of Sénanque, Le Thoronet and Silvacane.
The ruins of the abbey are now the site of a work of modern art by Italian artist Felice Varini, “One circle and a Thousand Fragments”: arcs of a circle are painted in actual gold paint (I must admit I collected a small piece that had fallen onto the ground...) with no apparent significance, unless you stand in a very specific place along the small road above the abbey site, from where it all comes into perspective. It is quite a clever installation. In December 2019, needless to say, I was the sole visitor on site...
The river that served both as an element of defense and a supply of fresh water for the abbey.
Almost every single component of the Flavel mansion seen here came from a carpenter's shop.
It would be a colossal job to build a precise replica of this building today even with our power tools.
In 1885 carpenters did have access to a variety of treadle tools, particularly saws and scroll saws. One wonders how much effort it would have taken to cut the many scrollwork designs seen here. The operators of treadle saws must have developed powerful muscles in one leg and, quite possibly, repetitive motion injuries.
However, a power tool was of little use unless the carpenter knew how to apply it to achieve the desired result. The crisp, repeating, and symmetrical designs have little or no margin for error.
I wish I knew how many carpenters were employed in creating the fancy wooden trim for the Flavel mansion, and how the carpentry shop was organized and managed. I hope for their sake that the carpenters had a fair amount of variety in their work. Imagine being the person responsible for every turned ornamental ball finial on the entire mansion!
Now that I think of it, I wonder where the carpentry shop was located. There was ample room for one on the ample lot. If that is where it was, I wonder whether any archaeological remains still exist that would be worth investigating.
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Flavel House History
The Flavel House Museum was the home of Captain George Flavel (1823-1893), one of Astoria’s most influential citizens in the late 1800s. Captain Flavel was a noted bar pilot on the Columbia River and a prominent businessman.
His Queen Anne style house was designed by German-born architect Carl W. Leick and was completed in the spring of 1886 as his retirement home.
The Captain lived here for seven years with his wife Mary Christina Boelling (1839-1928) and his two grown daughters, Nellie and Katie. The couple’s son, George Conrad Flavel, never lived in his parent’s new residence as he was already married and living in a house of his own.
The house remained in the family until 1934 when George and Mary’s great-granddaughter, Patricia Jean Flavel, gave the property to the city as a memorial to her family.
In 1936 there was talk of tearing the house down and establishing an outdoor community park on the property. However, the city had financial difficulties and decided to return the property to Patricia Flavel. That same year the residence and grounds were deeded to Clatsop County with the understanding that both would be kept in good repair and used for public purposes.
From 1937 through World War II, the Public Health Department, the Red Cross, and the local Welfare Commission all had offices in the house.
In 1951, there was once again the talk of tearing the house down, this time to make way for a parking lot for the County Courthouse.
Concerned citizens organized to save the home, and the Flavel House was made into a local history museum managed by the Clatsop County Historical Society while still under the ownership of the County.
Eventually, the County transferred full ownership of the property to the Historical Society.
About the Interior
The Flavel House is approximately 11,600 square feet and consists of two and a half stories, a single story rear kitchen, a four-story tower, and a full basement.
The interior woodwork around the doors, windows, and stair-cases are Eastlake-influenced in design. The Douglas Fir doors, moldings, and wainscoting were faux wood-grained by a master craftsman to look like exotic hardwoods such as mahogany and burl rosewood. The wood likely came from a mill in Portland or San Francisco and was shipped to Astoria by steamer.
Six fireplaces grace the home and feature different imported tiles from around the world, elaborate hand-carved mantels, and a patterned metal firebox designed to burn coal.
The fourteen-foot high ceilings on the first floor and the twelve-foot high ceilings on the second floor are embellished with plaster medallions and plaster crown moldings.
The house was very modern with wall-to-wall carpet-ing, gaslighting, indoor plumbing, and a central heating system.
The First Floor is comprised of the public rooms such as the grand entrance hall, the formal parlor, the music room (the scene of musical recitals by the Flavel daughters), the library (the heart of the house), the dining room, and the conservatory. The butler’s pantry, the kitchen, and the mudroom make up the housekeeping area.
The Second Floor features the main bathroom, five bedchambers, and a small room used as a sewing room or storage room.
The Attic Floor is a large, unfinished area with two small plain bedrooms used by the Flavel’s domestic help.
The tower gave the Captain a broad view of Astoria and the Columbia River to keep an eye on the local ship traffic.
The Basement of the house originally had a dirt floor and contained a large wood-burning furnace.
About the Exterior
The Flavel House rests on park-like grounds covering an entire city block. It has been listed on the National Register of Historic Places since 1951.
The Queen Anne architectural style, popular from 1880 to 1910, can be seen in the house’s steeply pitched roof, patterned shingles, and cut-away bay windows.
Other characteristics of the Queen Anne style are the octagonal-shaped tower, the one-story wrap-around porch, and its asymmetrical facade.
Decorative elements of the Stick and Italianate styles are also apparent in the vertical stickwork, the bracketed eaves, and the hooded moldings above the windows and doors.
Outlining the roof and verandas of the house is the original wrought-iron cresting.
About the Carriage House
The Carriage House was built on the south-west corner of the property in 1887. It served as the place where the family kept their carriage, sleigh, and small buggies.
It also had three temporary holding stalls for their horses, a tack room, and a hayloft upstairs.
In the mid-1890s, the Carriage House was home to the family’s hired caretaker, Alex Murray.
In time, automobiles, including the Flavel’s Studebaker sedan, found a home in the Carriage House, and the family’s driver kept a room upstairs.
Today the Carriage House functions as the Visitor Center, museum store, and exhibit hall for the Flavel House Museum and the administrative offices of the Clatsop County Historical Society.
🚜 It’s harvest season Part 1 & 2
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A small little post showing off a upgraded tractor inspired by the one in Battlefield V and by the tractor design for a fall post by the amazing @historybricks!
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I do plan to post a second part of this post later this week as I felt the tractor on its own is enough!
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▇▇ Please save posts
▇▇ as Instagram notices
◤◥ saves more then likes!
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Stats :
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Scale - 1/45
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Model/s - Tractor
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Parts Comp. - LEGO
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Parts Est. - 90~
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Build Time - 2 days
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Instruction Progress - No future plans
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#lego #legotractor #tractor #fallvibes #fall #farmer #harvest #legomoc #moc
Highlights:
– 131 builds! Not bad, really. ;)
– Blogged by TBB, once.
– Blogged a couple of times by BrickNerd.
– In quick succession, MOCathalon in March, GoH’s Challenge IV from March to June, and then AG kept me with a rate of at least one build a week. A bit exhausting, but fun!
– Published in Beautiful LEGO: Wild!
– Participated in a collab build with my brothers – Fight Through Abercrumbie Pass.
– Made it past the 50 favorites mark, though I was gunning for a hundred, but I guess that will have to wait.
– Passed 500 followers.
– Got a few honorable mentions here and there.
– Participated in launching Brethren of the Brick Seas.
Unlike those who are saying that they will be trying to build more next year, I will actually be trying to build less. I really want to make every MOC as good as it can be rather than feeling rushed to finish a build in a couple of hours. Plus I want to start building more as an art than just because I want to enter the next contest… so we’ll see!
My favorite builds this year:
Well, I really liked my worthless steering wheel build. But apparently not too many other people did.
Water of Life, if small, is still one of my favorites.
The Hanging rock + snake was enjoyable.
And of course, Auner Chapel, one of my heaftiest builds.
From left to right, top to bottom, the above builds are:
There be Treasure in Them Thar Caves!
Fight Through Abercrumbie Pass
"this is a build for the Hibernia group, and is not attached to the assault cannon."
made by an unknown company for the hibernia colonization program, it was meant to pull sleds, and with it's impressive bogie design being replaced by crude track pods it's no wonder these are seen abandoned on hibernia here and there.
the next few builds are going to be hibernia focused, as i look and think of inspiration for the next few builds, any questions leave in the comments.
more pictures: www.artstation.com/thormagniss
wips: twitter.com/TitenStudios
The nest is under construction atop a fire siren tower at the old city hall/fire station in Cambridge, Maryland.
Hombre que habla a teléfono. Teléfono que mira a chica. Chica que mira a espejo. Espejo que mira a coche. Coche que mira a señor.
# # #
Man speaks phone. Phone looks girl. Girl looks mirror. Mirror looks car. Car looks guy.
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Part of A work in progress. Building... but building what? series
Build you own kind of love with our assembly kits.
You can have hours of fun searching for yours!!!!
And remenber, i doesn't matter what kind is yours, it is just love,
the only thing that we need.
Merry Xmas
Antonio
sales force tower construction - financial district south, san francisco, california. 2 stitched images.
K-2SO Security Droid - Bandai 1/12
Full Build:
www.britmodeller.com/forums/index.php?/topic/235014938-k-...
APPLETON, WI - The Los Angeles Fire Department Aerial Ladder Build Team visited Pierce Manufacturing during November 2015 to conduct a detailed formal inspection of the first of 10 aerial ladder trucks built to LAFD specification by the Wisconsin manufacturer.
The apparatus pictured should be delivered to the LAFD at the end of December, weather permitting. The installation of additional equipment, including communications gear, will take place during January 2016.
The nine additional aerial ladder trucks from this order, built to identical standards, will be delivered to Los Angeles every 4 weeks beginning in March 2016.
With excellent care and maintenance provided by members of the Department, these vehicles could see daily around-the-clock service on the streets of Los Angeles through the year 2036.
Based upon the Department's needs and available funding, the LAFD is contemplating an order for an additional five of these Pierce aerial ladder trucks.
Photo Use Permitted via Creative Commons - Credit: LAFD Photo
Connect with us: LAFD.ORG | News | Facebook | Instagram | Reddit | Twitter: @LAFD @LAFDtalk
Oh yeah, micro garc build time.
When it's late in the night, there's always time for some late night GARCing!
Création d'une région portail hypergrid pour FrancoGrid - Février 2015
Building an hypergrid portal region at FrancoGrid - 2015, February.
Chef de projet/Project manager : Praline B
Construction/Build : Cherry Manga
Documentation/Information : Archael Magic, Cendres Magic, Katia ParcDesArts, Cherry Manga, Praline B.
Thank goodness for a long lens!
Funnel-web spiders are spiders that build funnel-shaped webs, which they use as burrows or to trap prey. Three distinct spider families are known popularly as funnel-web spiders, but they are all quite different. Some species are among the most deadly spiders in the world, while others are not harmful to humans.
These spiders get their name because, generally, their webs have a flat surface for capturing prey and a small funnel-like tube leading to a silken burrow in which the spider hides. The spider waits in the funnel for prey to fall onto the horizontal web, and then it rushes out, grabs the prey, and takes it back to the funnel to consume.
The de Havilland DH.98 Mosquito was a British multi-role combat aircraft with a two-man crew that served during and after the Second World War. It was one of few operational front-line aircraft of the era constructed almost entirely of wood and was nicknamed "The Wooden Wonder". The Mosquito was also known affectionately as the "Mossie" to its crews. Originally conceived as an unarmed fast bomber, the Mosquito was adapted to roles including low to medium-altitude daytime tactical bomber, high-altitude night bomber, pathfinder, day or night fighter, fighter-bomber, intruder, maritime strike aircraft, and fast photo-reconnaissance aircraft. It was also used by the British Overseas Airways Corporation (BOAC) as a fast transport to carry small high-value cargoes to, and from, neutral countries, through enemy-controlled airspace.
When the Mosquito began production in 1941, it was one of the fastest operational aircraft in the world. Entering widespread service in 1942, the Mosquito was a high-speed, high-altitude photo-reconnaissance aircraft, continuing in this role throughout the war. From mid-1942 to mid-1943 Mosquito bombers flew high-speed, medium or low-altitude missions against factories, railways and other pinpoint targets in Germany and German-occupied Europe. From late 1943, Mosquito bombers were formed into the Light Night Strike Force and used as pathfinders for RAF Bomber Command's heavy-bomber raids. They were also used as "nuisance" bombers, often dropping Blockbuster bombs - 4,000 lb (1,812 kg) "cookies" - in high-altitude, high-speed raids that German night fighters were almost powerless to intercept.
As a night fighter, from mid-1942, the Mosquito intercepted Luftwaffe raids on the United Kingdom, notably defeating Operation Steinbock in 1944. Starting in July 1942, Mosquito night-fighter units raided Luftwaffe airfields. As part of 100 Group, it was a night fighter and intruder supporting RAF Bomber Command's heavy bombers and reduced bomber losses during 1944 and 1945. As a fighter-bomber in the Second Tactical Air Force, the Mosquito took part in "special raids", such as the attack on Amiens Prison in early 1944, and in precision attacks against Gestapo or German intelligence and security forces. Second Tactical Air Force Mosquitos supported the British Army during the 1944 Normandy Campaign. From 1943 Mosquitos with RAF Coastal Command strike squadrons attacked Kriegsmarine U-boats (particularly in the 1943 Bay of Biscay, where significant numbers were sunk or damaged) and intercepting transport ship concentrations.
The Mosquito flew with the Royal Air Force (RAF) and other air forces in the European theatre, and the Mediterranean and Italian theatres. The Mosquito was also used by the RAF in the South East Asian theatre, and by the Royal Australian Air Force (RAAF) based in the Halmaheras and Borneo during the Pacific War.
By the early-mid-1930s, de Havilland had a reputation for innovative high-speed aircraft with the DH.88 Comet racer. The later DH.91 Albatross airliner pioneered the composite wood construction that the Mosquito used. The 22-passenger Albatross could cruise at 210 miles per hour (340 km/h) at 11,000 feet (3,400 m), better than the 100 miles per hour (160 km/h) Handley Page H.P.42 and other biplanes it was replacing. The wooden monocoque construction not only saved weight and compensated for the low power of the de Havilland Gipsy Twelve engines used by this aircraft, but simplified production and reduced construction time.
Air Ministry bomber requirements and concepts:
On 8 September 1936, the British Air Ministry issued Specification P.13/36 which called for a twin-engined medium bomber capable of carrying a bomb load of 3,000 pounds (1,400 kg) for 3,000 miles (4,800 km) with a maximum speed of 275 miles per hour (443 km/h) at 15,000 feet (4,600 m); a maximum bomb load of 8,000 pounds (3,600 kg) which could be carried over shorter ranges was also specified. Aviation firms entered heavy designs with new high-powered engines and multiple defensive turrets, leading to the production of the Avro Manchester and Handley Page Halifax.
In May 1937, as a comparison to P.13/36, George Volkert, the chief designer of Handley Page, put forward the concept of a fast unarmed bomber. In 20 pages, Volkert planned an aerodynamically clean medium bomber to carry 3,000 pounds (1,400 kg) of bombs at a cruising speed of 300 miles per hour (480 km/h). There was support in the RAF and Air Ministry; Captain R N Liptrot, Research Director Aircraft 3 (RDA3), appraised Volkert's design, calculating that its top speed would exceed the new Supermarine Spitfire. There were, however, counter-arguments that, although such a design had merit, it would not necessarily be faster than enemy fighters for long. The ministry was also considering using non-strategic materials for aircraft production, which, in 1938, had led to specification B.9/38 and the Armstrong Whitworth Albemarle medium bomber, largely constructed from spruce and plywood attached to a steel-tube frame. The idea of a small, fast bomber gained support at a much earlier stage than sometimes acknowledged though it was unlikely that the Air Ministry envisaged it not using light alloy components.
Project Mosquito:
Once design of the DH.98 had started, de Havilland built mock-ups, the most detailed at Salisbury Hall, in the hangar where E0234 was being built. Initially, this was designed with the crew enclosed in the fuselage behind a transparent nose (similar to the Bristol Blenheim or Heinkel He 111H), but this was quickly altered to a more solid nose with a more conventional canopy.
The construction of the prototype began in March 1940, but work was cancelled again after the Battle of Dunkirk, when Lord Beaverbrook, as Minister of Aircraft Production, decided there was no production capacity for aircraft like the DH.98, which was not expected to be in service until early 1941. Although Lord Beaverbrook told Air Vice-Marshal Freeman that work on the project had better stop, he did not issue a specific instruction, and Freeman ignored the request. In June 1940, however, Lord Beaverbrook and the Air Staff ordered that production was to focus on five existing types, namely the Supermarine Spitfire, Hawker Hurricane, Vickers Wellington, Armstrong-Whitworth Whitley and the Bristol Blenheim. Work on the DH.98 prototype stopped, and it seemed that the project would be shut down when the design team were denied the materials with which to build their prototype.
The Mosquito was only reinstated as a priority in July 1940, after de Havilland's General Manager L.C.L Murray, promised Lord Beaverbrook 50 Mosquitoes by December 1941, and this, only after Beaverbrook was satisfied that Mosquito production would not hinder de Havilland's primary work of producing Tiger Moth and Oxford trainers and repairing Hurricanes as well as the licence manufacture of Merlin engines. In promising Beaverbrook 50 Mosquitoes by the end of 1941, de Havilland was taking a gamble, because it was unlikely that 50 Mosquitos could be built in such a limited time; as it transpired only 20 Mosquitos were built in 1941, but the other 30 were delivered by mid-March 1942.
During the Battle of Britain, nearly a third of de Havilland's factory time was lost because the workers took cover in the factory's bomb shelters. Nevertheless, work on the prototype went quickly, such that E0234 was rolled out on 19 November 1940.
In the aftermath of the Battle of Britain, the original order was changed to 20 bomber variants and 30 fighters. It was still uncertain whether the fighter version should have dual or single controls, or should carry a turret, so three prototypes were eventually built: W4052, W4053 and W4073. The latter, both turret armed, were later disarmed, to become the prototypes for the T.III trainer. This caused some delays as half-built wing components had to be strengthened for the expected higher combat load requirements. The nose sections also had to be altered, omitting the clear perspex bomb-aimer's position, to solid noses designed to house four .303 machine guns and their ammunition.
Overview:
The Mosquito was a fast, twin-engined aircraft with shoulder-mounted wings. The most-produced variant, designated the FB Mk VI (Fighter-bomber Mark 6), was powered by two Merlin Mk 23 or Mk 25 engines driving three-bladed de Havilland hydromatic propellers. The typical fixed armament for an FB Mk VI was four Browning .303 machine guns and four 20 mm Hispano cannon while the offensive load consisted of up to 2,000 pounds (910 kg) of bombs, or eight RP-3 unguided rockets.
Construction:
The oval-section fuselage was a frameless monocoque shell built in two halves being formed to shape by band clamps over a mahogany or concrete mould, each holding one half of the fuselage, split vertically. The shell halves were made of sheets of Ecuadorean balsawood sandwiched between sheets of Canadian birch, but in areas needing extra strength— such as along cut-outs— stronger woods replaced the balsa filler; the overall thickness of the birch and balsa sandwich skin was only 7⁄16 inch (11 mm). This sandwich skin was so stiff that no internal reinforcement was necessary from the wing's rear spar to the tail bearing bulkhead. The join was along the vertical centre line. This split construction greatly aided the assembly of the internal equipment as it allowed the technicians easy access to the fuselage interior. While the glue in the plywood skin dried, carpenters cut a sawtooth joint into the edges of the fuselage shells, while other workers installed the controls and cabling on the inside wall. When the glue completely dried, the two halves were glued and screwed together. The fuselage was strengthened internally by seven bulkheads made up of two plywood skins parted by spruce blocks, which formed the basis on each half for the outer shell. Each bulkhead was a repeat of the spruce design for the fuselage halves; a balsa sheet sandwich between two plywood sheets/skins. Bulkhead number seven carried the fittings and loads for the tailplane and rudder, The type of glue originally used was Casein, which was later replaced by "Aerolite", a synthetic urea-formaldehyde, which was more durable. Many other types of screws and flanges (made of various woods) also held the structure together.
The fuselage construction joints were made from balsa wood and plywood strips with the spruce multi-ply being connected by a balsa V joint, along with the interior frame. The spruce would be reinforced by plywood strips at the point where the two halves joined to form the V-joint. Located on top of the joint the plywood formed the outer skin. During the joining of the two halves ("boxing up"), two laminated wooden clamps would be used in the after portion of the fuselage to act as support. A covering of doped Madapolam (a fine plain woven cotton) fabric was stretched tightly over the shell and a coat of silver dope was applied, after which the exterior camouflage was applied. The fuselage had a large ventral section cut-out, which was braced during construction, to allow it to be lowered onto the wing centre-section. Once the wing was secured the lower panels were replaced, and the bomb bay or armament doors fitted.
The all-wood wing was built as a one-piece structure and was not divided into separate construction sections. It was made up of two main spars, spruce and plywood compression ribs, stringers, and a plywood covering. The outer plywood skin was covered and doped like the fuselage. The wing was installed into the roots by means of four large attachment points. The engine radiators were fitted in the inner wing, just outboard of the fuselage on either side. These gave less drag. The radiators themselves were split into three sections: an oil cooler section outboard, the middle section forming the coolant radiator and the inboard section serving the cabin heater. The wing contained metal framed and skinned ailerons, but the flaps were made of wood and were hydraulically controlled. The nacelles were mostly wood, although, for strength, the engine mounts were all metal as were the undercarriage parts. Engine mounts of welded steel tube were added, along with simple landing gear oleos filled with rubber blocks. Wood was used to carry only in-plane loads, with metal fittings used for all triaxially loaded components such as landing gear, engine mounts, control surface mounting brackets, and the wing-to-fuselage junction. The outer leading wing edge had to be brought 22 inches (56 cm) further forward to accommodate this design. The main tail unit was all wood built. The control surfaces, the rudder and elevator, were aluminium framed and fabric covered. The total weight of metal castings and forgings used in the aircraft was only 280 lb (130 kg).
In November 1944, several crashes occurred in the Far East. At first, it was thought these were as a result of wing structure failures. The casein glue, it was said, cracked when exposed to extreme heat and/or monsoon conditions. This caused the upper surfaces to "lift" from the main spar. An investigating team led by Major Hereward de Havilland travelled to India and produced a report in early December 1944 stating that "the accidents were not caused by the deterioration of the glue but by shrinkage of the airframe during the wet monsoon season". However a later inquiry by Cabot & Myers definitely attributed the accidents to faulty manufacture and this was confirmed by a further investigation team by the Ministry of Aircraft Production at Defford which found faults in six different Marks of Mosquito (all built at de Havilland's Hatfield and Leavesden plants) which showed similar defects, and none of the aircraft had been exposed to monsoon conditions or termite attack; thus it was concluded that there were construction defects found at the two plants. It was found that the "Standard of glueing...left much to be desired”. Records at the time showed that accidents caused by "loss of control" were three times more frequent on Mosquitoes than on any other type of aircraft. The Air Ministry forestalled any loss of confidence in the Mosquito by holding to Major de Havilland's initial investigation in India that the accidents were caused "largely by climate" To solve the problem, a sheet of plywood was set along the span of the wing to seal the entire length of the skin joint along the main spar.
Information regarding the de Havilland DH98 Mosquito has been taken from excerpts contained on Wikipedia
Aston Martin Ulster Roadster (1936)
In 1927 Aston Martin was taken over by race driver A. C. Bertelli. He designed a 1.5-litre, SOHC engine which would eventually power the LeMans-racing Ulster. Thoughout the years the engine was devloped to include dry sump lubrication.
The Aston Martin Ulster stands as one of the most respected pre-war racecars. It was largely based on the Mark II which came before it.
The Ulster had a breif two year race program. During this time they dominated the British Tourist Trophy at Goodwood. In 1934, Ulsters took first, second and third place. The best LeMans result was achieved in 1935. Chassis LM20 raced to third overall which put it first in the 1101 to 1500cc class.
After the race efforts, Aston Martin readied a production version of the LeMans cars. Twenty-One of these cars were built of which all are accounted for today.
Aston Martin Ulster information used from:
www.supercars.net/cars/2084.html
In the 1980's a small number (7) replicas of the Aston Martin Ulster Roadster were manufactured as a kit car:
Fergus Mosquito (Aston Martin Ulster replica)
Kop Hill Climb - 25th September 2011
Fergus Mosquito - an Aston Martin Ulster replica.
Only seven were made in Kingsbridge, Devon, in the 1980s, using donor Morris Marina B-series engines and other parts.
UIJ233 is the best of the 7 replicas.
These two models, the de Havilland DH98 Mosquito aircraft and the Aston Martin Ulster Roadster of 1936 have been created in Lego miniland scale for Flickr LUGNuts' 79th Build Challenge, - 'LUGNuts goes Wingnuts" - featuring automotive vehicles named after, inspired by or related to aircraft.
Taken earlier today during a PC build I'm currently doing. Just a basic office machine for a member of family so nothing massively powerful.
Taken with my Tokina 100mm Macro Lens and new Nikon D750. Still getting to grips with it and need to get myself a wide angle lens suitable for use on FX but really liking it so far. And to think I said a couple of weeks ago I had no plans for a new camera!