View allAll Photos Tagged Bodyshell
The Lancia Fulvia (Tipo 818) is an Italian car introduced at the Geneva Motor Show in 1963 by Lancia and produced until 1976. Fulvias are notable for their role in motorsport history, including winning the International Rally Championship in 1972. On testing it in 1967, Road & Track summed up the Fulvia as "a precision motorcar, an engineering tour de force". Named after Via Fulvia, Roman road leading from Tortona to Torino.
The Fulvia was available in three variants: Berlina 4-door saloon, 2-door Coupé, and Sport, an alternative fastback coupé designed and built by Zagato on the Coupé floorpan.
Specifications:
Chassis
The Fulvia Berlina was designed by Antonio Fessia, to replace the Lancia Appia with which it shared almost no components. The Appia was a rear wheel drive car, however, while the Fulvia moved to front wheel drive like the Flavia. The general engineering design of the Fulvia was identical to that of the Flavia with the major exception of the engine, the Flavia having a four-cylinder horizontally opposed engine and the Fulvia a 'Narrow Angle' vee configuration as featured on most production Lancias from the Lambda. The Fulvia used a longitudinal engine mounted in front of its transaxle. An independent suspension in front used wishbones and a single leaf spring, while a beam axle with a panhard rod and leaf springs was used in back. Four wheel Dunlop disc brakes were fitted to first series Fulvias. With the introduction of the second series in 1970 the brakes were uprated with larger Girling calipers all round and a brake servo. The handbrake design was also changed - using separate drums and brake-shoes operating on the rear wheels.
Engine
The V4 engine of a 1972 Fulvia Berlina
One element that was new was the narrow-angle V4 engine. Designed by Zaccone Mina, it used a narrow angle (12°53'28") and was mounted well forward at a 45° angle. The engine is a DOHC design with a one camshaft operating all intake valves and another operating all exhaust valves. The very narrow angle of the cylinders allowed for use of a single cylinder head.
Displacement began at just 1091 cc with 58 bhp (44 kW) with a 72 mm bore and 67 mm stroke. A higher (9.0:1) compression ratio and the fitment of twin Solex carburettors raised power to 71 bhp (53 kW) soon after.
The engine was bored to 6 mm to enlarge displacement to 1216 cc for the HF model. This, and some tuning, raised output to 80 to 88 bhp (60 to 66 kW).
The engine was re-engineered with a slightly narrower bank angle (12°45'28") and longer (69.7 mm) stroke for 1967. Three displacements were produced: 1199 cc (74 mm bore), 1231 cc (75 mm bore), and 1298 cc (77 mm bore). The new 1298 cc engine was produced in two versions; the type 818.302 produced 87 bhp (65 kW) at 6000 rpm and was fitted to 1st series Coupés, Sports and Berlina GTE and later to the 2nd Series Berlina. The Type 818.303 was first produced with 92 hp (69 kW) and was fitted to the 1st series Coupé Rallye S and Sport S. For the 2nd Series Coupé and Sport power was slightly reduced to 90 hp (67 kW) at 6000 rpm.
The engine was completely reworked for the new 1.6 HF with an even-narrower angle (11°20' now) and longer 75 mm stroke combined with a bore of 82 mm gave it a displacement of 1584 cc, and power ranged from 115 to 132 bhp (85 to 98 kW) depending on tune.
Coupé 1.3 S Montecarlo: 1972–73.
Special edition based on the 1.3 S, commemorating Lancia's victory at the 1972 Monte Carlo Rally. The livery resembled the works car, with matte black bonnet and boot lid bearing Monte Carlo rally plate-style stickers. This version used his own bodyshell with flared wheel arches, similar to but different from the 1.6 HF bodyshell. Other accouterments included 1.6 HF Lusso interior fittings such as bucket seats with headrests, rectangular front fog lamps, no bumpers and black single wing mirror; 4.5J steel wheels of the standard Coupé were fitted.
[Text from Wikipedia]
en.wikipedia.org/wiki/Lancia_Fulvia
This Lego miniland-scale Lancia Fulvia Coupe 1.3 S Monte Carlo - has been created for Flickr LUGNuts' 106th Build Challenge, titled - 'Exclusive Edition!' - a challenge for vehicles made in a 'special edition' - for whatever reason.
Another day, another E-Type, and this example is one of what many consider the better cars, being the stylish and flamboyant Series I fitted with the powerful and reliable 4.2L Straight Six engine!
One of the most revolutionary cars in all of motoring history, a car that has often been declared as the Space Shuttle in the Middle Ages! Beauty, style and performance all harnessed in one simple bodyshell. It can't be anything other than the Jaguar E-Type!
When it was launched in 1961, Britain was still very much an antiquated Victorian country, and transport was not much better. Steam Trains still had another 7 years to go and the most you could get out of the Motor Industry were flaky BMC products such as the humble Austin Cambridge and the Morris Minor. Unbeknownst to this very slow moving world of modesty, the entire picture was about to be turned on its head. In music, the Beatles rocked their way into everlasting legacy, the De Havilland Comet brought nations closer together, and Jaguar launched the E-Type, a car that set the motoring world ablaze!
Designed by Malcolm Sayer and powered by a 3.8L Straight Six engine, the Jaguar E-Type could now whisk people to 150mph, and with there being no speed limits back then, that was not too much of a stretch to imagine. You just had to look at it to see nothing but speed, everything about it was designed to go as fast as possible!
In spirit, the E-Type can trace its roots back to the race ready D-Type, also designed by Malcolm Sayer and notable for raking home victory after victory at Le Mans, being credited with being one of the most advanced sports cars of all time. A limited edition road going version, the XKSS, made the idea of a D-Type on the public highway possible, and parts developed in this often forgotten little gem helped to culminate in the final and superb E-Type.
On March 16th 1961, the E-Type was released upon the unsuspecting public at the Geneva Motor Show to an absolute roar of applause and acclaim. It made the front page of pretty much every newspaper in Europe, and orders absolutely rolled in by the thousand! The thing that made the E-Type so desirable was the fact that it was fun on a budget, a high performance 150mph capable machine for an affordable price of just £2,000, the equivalent of about £40,000 today. Now you may think that's a lot of money, but when you consider that a car of comparable beauty and performance was double that price, you'd know it was something truly special.
However, this proved to be a problem for the comparatively small company, who simply couldn't turn out the cars fast enough to supply the demand. Millions and Millions of Pounds worth of orders were being placed, with some owners even going so far as to place deposits at 10 to 15 Jaguar dealers hoping that one of them could give them a car! The biggest problem was trying to supply differing markets, especially if you were British because in order to appease the desperate American buyers, cars would be built in LHD for 6 month periods at a time, which meant if you were someone wishing to buy a car here in the UK, you'd be stuck for the best part of a year!
But it was obvious why, these cars were unrealistically fast! Tap the pedal and you'd be at 60mph in 7.1 seconds, press it further and you'd be over 100, and if you pressed it further, the bonnet would rise and with blood gushing from your eyes and every fibre of your body telling you to stop, you'd be hitting 150mph! That doesn't sound like much today considering the Aston Martins and Ferrari's we're so used to, but in 1961 this was absolutely unheard of.
Not that your E-Type would ever make 150mph because Jaguar had been a tad naughty. As it turns out the initial test cars that had been leant to the Press had been tuned to reach that golden 150, but the rest of the flock would barely go that fast. This was further compounded by a troublesome gearbox, hopeless brakes, cramped interior and uncomfortable seats. Jaguar's con had only been done to bless their car with the initial fame that would sell the production models, but in 1965 Jaguar chose to redress the issue by fitting the car with a much larger and much better 4.2L Straight Six engine.
But once the novelty had worn off the E-Type was starting to become maligned. Much like owning a topping Rolls Royce, seeing one being driven in the street opened the wounds of jealousy that continued to divide the social classes, and if you were very lucky you'd only get away with a disapproving look or a nasty name, if you weren't expect a brick, a can of paint or a rock to be hurtled in your direction! At the same time because so many cars had been built, the Second Hand market became saturated which meant that people could pick up early ones for a song, which removed the exclusivity that these vehicles had once commanded. Again, much like a Rolls Royce these owners only saw them as ways to get women to take off their clothes for you, and thus didn't exactly give them the love that such cars required.
However, this was before we got to the biggest problem of them all, America.
Actually I take it back, America can't be blamed for everything, in fact the stringent safety legislation and rules on car manufacturing can be credited to the increased safety of modern motor vehicles, the people to be blamed though are in fact the car manufacturers themselves for not being able to incorporate the compulsory safety features whilst still keeping the car stylish.
But still, throughout the 1960's the death of James Dean had resulted in a gradual increase in safety legislation on US Highways, and in order to have a market there, cars had to conform. The height of the headlights, the bumpers, the smoke emissions, the recess of the switches, all of these things were scrutinised and had to be taken into account by car builders. The E-Type became a shameful victim as its looks were compromised with changes to the lights, and body profile. To be honest the Series II was not that bad a car, still retaining much of its charm, especially when you compare it to 1971's Series III which was formulated by British Leyland. With the cabin looking like it had sunk, the lights being stretched and contorted, and sporting a massive 5.3L V12 engine. By this point many of the cars former buyers saw the E-Type as damaged beyond repair and thus sales began to tumble. British Leyland however had been planning to replace the car since the late 1960's, and after much deliberation its replacement, the Jaguar XJS, was launched in 1975, bringing an end to the increasingly hard to sell E-Type. Although very well performing, in terms of looks, the XJS was considered by many classic Jag fans to be absolute heresy, but would go on to have a much longer life that the E-Type, being built until 1996.
However, even before the last E-Type left the production line the originals were already being hailed as classical heroes. In total well over 70,000 of these cars had been sold, and a large number of them remain on the roads. During the late 70's and 80's the car continued to be a major pin-up, often ending up rather oddly, and to my mind a bit shamefully, in erotic films and porn movies (I sure hope they washed thoroughly afterwards). But when you look at the E-Type you can understand why, it is a seriously sexy looking car!
So iconic and so stylish were these cars that over the years many different replica models have also been made. Throughout the 1990's the company Eagle GB built the Eagle E-Type, brand new cars built to exactly the same specifications as the original Series I versions, whilst in 2011 the Eagle Speedster was produced, revising the bodyshape but attempting to maintain the charm of the original, and in 2014 several remaining chassis from the original production run that had been kept in storage are intended to be built into fully functioning cars.
The E-Type may have died a long time ago, but its reputation isn't letting up! :D
The second-generation Volkswagen Golf (also known as the Typ 19E until the 1991 model year, and Typ 1G thereafter) was launched in Europe at the Frankfurt Motor Show in September 1983, with sales beginning in its homeland and most other left-hand drive markets soon after. It debuted in March 1984 on the right-hand drive British market, and it was introduced as a 1985 model in the United States. It featured a larger bodyshell, and a wider range of engine options.
During the life of the Golf MK2, there were a number of external style revisions. Notable changes to the looks of the Golf MK2 included the removal of quarterlight windows in the front doors, and the introduction of larger grille slats with the August 1987 facelift. The most notable was the introduction of so-called "Big Bumpers", which were introduced in the European market with an August 1989 facelift.
The successful Golf GTI (or, in the US, simply "GTI") was continued with the Mk2 as a sporty 3- or 5-door hatchback. Like late Mk1 GTIs, it featured a naturally aspirated Bosch K-Jetronic fuel injected 1,781 cc (1.8 L; 108.7 cu in) Inline-four engine developing 112 PS (82.4 kW; 110.5 hp). In 1986 (1987 for North America) a Golf GTI 16V was introduced; here the 1.8 litre engine output was 139 PS (137 hp; 102 kW) at 6,100 rpm (or 129 metric horsepower (95 kW) for the catalyst version) and 168 newton metres (124 lbf⋅ft) at 4,600 rpm of torque,[6] the model was marked by discreet red-and-black "16V" badges front and rear. US/Canadian GTIs were later equipped with 2.0, 16-valve engines, available in the Passat and Corrado outside North America. In 1990, like the Golf, the GTI was given a facelift, and the "Big Bumper" became standard on all GTIs.
Being October, which had always been the LUGNuts anniversary month, this Mk2 VW Golf GTi has been built to the 42nd challenge theme 'Autos aus Deutschland'.
Having previously appeared on a redesigned gearless Mini, the 9X project name would once again make an appearance 10 years later, this time on the Mini's proposed replacement, the Metro! The MG Metro 9X however doesn't really have much more than it being fitted with a six-cylinder engine, apart from that, it's just a regular MG Metro.
Originally conceived by British Leyland, the Metro was built to similar principals as those of the Mini it was intended to replace, with a small, practical platform with as much use available to the passenger as was possible. The car came under various initial guises, including the Austin Metro, the Austin miniMetro, the Morris Metro van and the MG Metro, a version of the car with a 1.3L A-Series Turbo Engine.
Although the car was launched in 1980, development of a Mini replacement had dated back to the beginning of the 70's. Dubbed ADO88 (Amalgamated Drawing Office project number 88), the Metro was eventually given the go ahead in 1977, but wanted to have the appeal of some of the larger 'Supermini' (what a contradiction in terms) cars on the market, including cars such as the Ford Fiesta and the Renault 5. Designed by Harris Mann (the same guy who gave us the Princess and the Allegro), the car was given a much more angular body for the time, but despite its futuristic looks did share many features of the earlier Mini, including the 675cc BMC-A Series engine that dated back to 1959, and the gearbox. Initial cars also included the Hydragas Suspension system originally used on the Allegro and the Princess, though with no front/rear connection. The car was also built as a hatchback, which would eventually be a key part of its success as the Mini instead utilised only a small boot.
The Metro was originally meant for an earlier 1978 launch, but a lack of funds and near bankruptcy of British Leyland resulted in the car's launch being pushed back. This delay however did allow the folks at Longbridge to construct a £200m robotic assembly plant for the new Metro line, with the hope of building 100,000 cars per year. Finally the car entered sales 3 years late and got off to quite promising initial sales, often being credited for being the saviour of British Leyland. The Metro was in fact the company's first truly new model in nearly 5 years, with the 9 year old Allegro still in production, the 1980 Morris Ital being nothing more than a 7 year old Marina with a new face, and the 5 year old Princess not going anywhere!
As mentioned, an entire myriad of versions came with the Metro, including the luxury Vanden Plas version and the sporty MG with its top speed of 105mph and 0-60mph of 10.1 seconds. Eventually the original incarnation of the car, the Austin Metro, went on to sell 1 million units in it's initial 10 year run, making it the second highest selling car of the decade behind the Ford Escort. However, like most other British Leyland products, earlier cars got a bad reputation for poor build quality and unreliability, combined with the lack of rustproofing that was notorious on many BL cars of the time.
The show was not over however, as in 1990 the car was given a facelift and dubbed the Rover Metro. The 1950's A-Series engine was replaced by a 1.1L K-Series, and the angular bodyshell was rounded to similar principals as those by acclaimed styling house Ital to create a more pleasing look for the 90's. This facelift, combined with an improvement in reliability and build quality, meant that the car went on to win the 'What Car?' of the Year Award in 1991.
In 1994 the car was given yet another facelift, with once again a more rounded design and removal of the Metro name, the car being sold as the Rover 100. Engines were once again changed, this time to a 1.5L Peugeot engine and more audacious colour schemes were available for the even more rounded design of the new car. However, the car was very much starting to look and feel its age. Aside from the fact that the design dated back to 1977, the new car was not well equipped, lacking electric windows, anti-lock brakes, power steering, or even a rev counter! In terms of safety, it was very basic, with most features such as airbags, an alarm, an immobiliser and central locking being optional extras.
Eventually the curtain had to fall on the Metro, and in 1997, twenty years after the initial design left the drawing board, it was announced that the car would be discontinued. Spurred on by dwindling sales due to lack of safety and equipment, as well as losing out to comparative cars such as the ever popular Ford Fiesta, VW Polo and Vauxhall Corsa, with only fuel economy keeping the car afloat, Rover axed the Metro in 1998 with no direct replacement, although many cite the downsized Rover 200 a possible contender. Stumbling blindly on, the next car to fill the gap in Rover's market was the 2003 CityRover, based on the TATA Indica, which flopped abysmally and pretty much totalled the company (but that's another story).
In the end only 2,078,000 Metro's were built in comparison to the 5.3 million examples of the Mini that it was meant to replace. The main failings of the Metro were down to the fact that the car was too big compared to the Mini, and the rounded old-world charm of the Coopers and Clubmans was replaced by the angular corners. Because of this the car simply didn't have the novelty that the Mini continued to claim even 20 years after the first ones left the factory, and the Mini would even go on to outlive the Metro by another 2 years, ending production in 2000, then going on to have a revival in the form of BMW's New Mini Cooper that's still being built today. Unlike the Mini, the Metro also failed to conquer the international market in the same way, scoring its 2 million units pretty much in Britain alone, although some cars were sold in France and Spain, but only to the total of a few hundred.
The Metro however survived only on fuel economy and its spacious interior, but by the early 1990's, whilst other car manufacturers had moved on leaps and bounds, Rover continued to be stuck in the past with not the money or the enthusiasm to change what was a terribly outdated and extremely basic car. Towards the end the Metro, which had only a few years earlier won awards for its practical nature, was ending up on lists for Worst car on the market.
Today however you can still see Metro's, later editions are especially common on the roads of Britain. Earlier models built under British Leyland have mostly rusted away and are apparently only down to about a thousand nowadays, but the Rover 100's and Rover Metros continue to ply their trade, a lonely reminder of how here in Britain, we can never ever seem to move on!
5Z50 0744 Wolverton Centre Sidings-Exeter St Davids Prem Tran.
After spending 16 months in Wolverton having extensive work done to to its bodyshell, seen here returning back down the West.
The Lancia Fulvia (Tipo 818) is an Italian car introduced at the Geneva Motor Show in 1963 by Lancia and produced until 1976. Fulvias are notable for their role in motorsport history, including winning the International Rally Championship in 1972. On testing it in 1967, Road & Track summed up the Fulvia as "a precision motorcar, an engineering tour de force". Named after Via Fulvia, Roman road leading from Tortona to Torino.
The Fulvia was available in three variants: Berlina 4-door saloon, 2-door Coupé, and Sport, an alternative fastback coupé designed and built by Zagato on the Coupé floorpan.
Specifications:
Chassis
The Fulvia Berlina was designed by Antonio Fessia, to replace the Lancia Appia with which it shared almost no components. The Appia was a rear wheel drive car, however, while the Fulvia moved to front wheel drive like the Flavia. The general engineering design of the Fulvia was identical to that of the Flavia with the major exception of the engine, the Flavia having a four-cylinder horizontally opposed engine and the Fulvia a 'Narrow Angle' vee configuration as featured on most production Lancias from the Lambda. The Fulvia used a longitudinal engine mounted in front of its transaxle. An independent suspension in front used wishbones and a single leaf spring, while a beam axle with a panhard rod and leaf springs was used in back. Four wheel Dunlop disc brakes were fitted to first series Fulvias. With the introduction of the second series in 1970 the brakes were uprated with larger Girling calipers all round and a brake servo. The handbrake design was also changed - using separate drums and brake-shoes operating on the rear wheels.
Engine
The V4 engine of a 1972 Fulvia Berlina
One element that was new was the narrow-angle V4 engine. Designed by Zaccone Mina, it used a narrow angle (12°53'28") and was mounted well forward at a 45° angle. The engine is a DOHC design with a one camshaft operating all intake valves and another operating all exhaust valves. The very narrow angle of the cylinders allowed for use of a single cylinder head.
Displacement began at just 1091 cc with 58 bhp (44 kW) with a 72 mm bore and 67 mm stroke. A higher (9.0:1) compression ratio and the fitment of twin Solex carburettors raised power to 71 bhp (53 kW) soon after.
The engine was bored to 6 mm to enlarge displacement to 1216 cc for the HF model. This, and some tuning, raised output to 80 to 88 bhp (60 to 66 kW).
The engine was re-engineered with a slightly narrower bank angle (12°45'28") and longer (69.7 mm) stroke for 1967. Three displacements were produced: 1199 cc (74 mm bore), 1231 cc (75 mm bore), and 1298 cc (77 mm bore). The new 1298 cc engine was produced in two versions; the type 818.302 produced 87 bhp (65 kW) at 6000 rpm and was fitted to 1st series Coupés, Sports and Berlina GTE and later to the 2nd Series Berlina. The Type 818.303 was first produced with 92 hp (69 kW) and was fitted to the 1st series Coupé Rallye S and Sport S. For the 2nd Series Coupé and Sport power was slightly reduced to 90 hp (67 kW) at 6000 rpm.
The engine was completely reworked for the new 1.6 HF with an even-narrower angle (11°20' now) and longer 75 mm stroke combined with a bore of 82 mm gave it a displacement of 1584 cc, and power ranged from 115 to 132 bhp (85 to 98 kW) depending on tune.
Coupé 1.3 S Montecarlo: 1972–73.
Special edition based on the 1.3 S, commemorating Lancia's victory at the 1972 Monte Carlo Rally. The livery resembled the works car, with matte black bonnet and boot lid bearing Monte Carlo rally plate-style stickers. This version used his own bodyshell with flared wheel arches, similar to but different from the 1.6 HF bodyshell. Other accouterments included 1.6 HF Lusso interior fittings such as bucket seats with headrests, rectangular front fog lamps, no bumpers and black single wing mirror; 4.5J steel wheels of the standard Coupé were fitted.
[Text from Wikipedia]
en.wikipedia.org/wiki/Lancia_Fulvia
This Lego miniland-scale Lancia Fulvia Coupe 1.3 S Monte Carlo - has been created for Flickr LUGNuts' 106th Build Challenge, titled - 'Exclusive Edition!' - a challenge for vehicles made in a 'special edition' - for whatever reason.
The Hillman Avenger is a rear-wheel drive small family car originally manufactured under the Hillman marque by the Rootes Group from 1970–1976, and made by Chrysler Europe from 1976–1981 as the Chrysler Avenger and finally the Talbot Avenger. The Avenger was marketed in North America as the Plymouth Cricket.
The Avenger was initially produced at Rootes' plant in Ryton-on-Dunsmore, England, and later at the company's Linwood facility near Glasgow, Scotland.
1970: Hillman Avenger
Introduced in February 1970, the Avenger was significant as it was the first and last car to be developed by Rootes after the Chrysler takeover in 1967. Stylistically, the Avenger was undoubtedly very much in tune with its time; the American-influenced "Coke Bottle" waistline and semi-fastback rear-end being a contemporary styling cue, indeed the Avenger would be the first British car to be manufactured with a one piece plastic front grille. However, from an engineering prospective it was rather conventional, using a 4-cylinder all-iron overhead valve engine in 1250 or 1500 capacities driving a coil spring suspended live axle at the rear wheels. Unlike any previous Rootes design, there were no "badge-engineered" Humber or Singer versions in the UK market. The Avenger was immediately highly praised by the press for its good handling characteristics and generally good overall competence on the road and it was considered a significantly better car to drive than rivals like the Morris Marina.
Initially, the Avenger was available as a four-door saloon in DL, Super and GL trim levels. The DL and Super could be had with either the 1250 or 1500 cc engines, but the GL was only available with the 1500 cc engine. Since the DL was the basic model in the range, it featured little more than rubber mats and a very simple dashboard with a strip-style speedometer. The Super was a bit better equipped, featuring carpets, armrests, twin horns and reversing lights, though the dashboard was carried over from the DL. The top-spec GL model featured four round headlights (which was a big improvement over the rectangular ones from the Hillman Hunter that were used on the DL and Super), internal bonnet release, two-speed wipers, brushed nylon seat trim (previously never used on British cars), reclining front seats, and a round-dial dashboard with extra instrumentation.
Not only was the Avenger's styling totally new, but so were the engine and transmission units, which were not at all like those used in the larger "Arrow" series Hunter. Another novelty for the Avenger was the use of a plastic radiator grille, a first in Britain and at 4 ft 6 in (137 cm) wide claimed as the largest mass-produced plastics component used at this time by the European motor industry. The Avenger was a steady seller in the 1970s, in competition with the Ford Escort and Vauxhall Viva. Chrysler was attempting to make the Avenger to be a "world car", and took the ambitious step of marketing the Avenger as the Plymouth Cricket in the U.S. Complaints of rust, unreliability, plus apathy towards small cars amongst buyers in the U.S., saw it withdrawn from that market after only two years.
Introduction of body and trim variations
In October 1970, the Avenger GT was added to the range. It had a twin-carburettor 1500 cc engine, four-speed manual or three-speed automatic transmission (also optional on the 1500 DL, Super and GL). The GT featured twin round headlights, go-faster stripes along the sides of the doors and "dustbin lid" wheel covers, which were similar to those found on the various Datsuns and Toyotas of the 1970s.
The basic fleet Avenger was added to the range in February 1972. It was offered with either 1250 or 1500 cc engines (the latter available with the automatic transmission option). The fleet Avenger was very basic: it did not have a sun visor for the front passenger, and the heater blower had just a single speed. In October 1972, the Avenger GT was replaced by the Avenger GLS, which came with a vinyl roof and Rostyle sports wheels.
In March 1972, the five-door estate versions were introduced, in DL and Super forms (both available with either 1250 or 1500 cc engines) and basically the same specifications as the saloon versions. However, 'heavy-duty springing' was fitted and the estate had a maximum load capacity of 1,040 lb (470 kg), compared to 840 lb (380 kg) for the saloon.
.
The two-door saloon models were added in March 1973, with all engine and trim options of the existing four-door range. Styling of the two-door was similar to the four-door, but the side profile was less curvaceous.
The car was extensively marketed in continental Europe, first as a Sunbeam. It was without the Avenger name in France, where it was known as the Sunbeam 1250 and 1500; later the 1300 and 1600. Some northern European markets received the car as the Sunbeam Avenger.
Both engine sizes were upgraded in October 1973. The 1250 became the 1300, while the 1500 became the 1600 with nearly all the same previous trim levels except for the basic fleet Avenger, which was discontinued at this point. The GL and GT trim levels were now also offered with the 1300 engine and two-door saloon body.
1972: Avenger Tiger
Named to evoke memories of the Sunbeam Tiger, the Avenger Tiger concept began as a publicity exercise. Avenger Super (four-door) cars were modified by the Chrysler Competitions Centre under Des O' Dell and the Tiger model was launched in March 1972. Modifications included the 1500 GT engine with an improved cylinder head with enlarged valves, twin Weber carburetors and a compression ratio of 9.4:1. The engine now developed 92.5 bhp (69 kW) at 6,100 rpm. The suspension was also uprated, whilst brakes, rear axle, and gearbox are directly from the GT.
A distinctive yellow colour scheme ("Sundance") with a bonnet bulge, rear spoiler and side stripes was standard, set off with "Avenger Tiger" lettering on the rear quarters.
Road test figures demonstrated a 0–60 mph time of 8.9 seconds and a top speed of 108 mph (174 km/h). These figures beat the rival Ford Escort Mexico, but fuel consumption was heavy. Even in 1972, the Tiger developed a reputation for its thirst.
All Avenger Tigers were assembled by the Chrysler Competitions Centre and production figures are vague but around 200 of the initial Mark 1 seems likely.
In October 1972, Chrysler unveiled the more "productionised" Mark 2 Tiger. The Avenger GL bodyshell with four round headlights was used. Mechanically identical to the earlier cars, the bonnet bulge was lost although the bonnet turned matt black, and there were changes to wheels and seats. These cars went on sale at £1,350. Production was around 400. Red ("Wardance") was now available as well as yellow ("Sundance"), both with black detailing.
[Text from Wikipedia]
en.wikipedia.org/wiki/Hillman_Avenger
This miniland-scale Lego 1972 Hillman Avenger Tiger has been created for Flickr LUGNuts' 91st Build Challenge, - "Anger Management", - all about cars with some link to being angry.
The only Jaguar XJ220 in the world that lived up to its name, being fitted with a stunning V12 engine and making it the world's fastest production car. However, costs, setbacks, a recession or two and a myriad of other problems resulted in the dream becoming a nightmare, and the match of styling and power made in heaven being turned quickly into a BDSM session in hell!
The proposal for the Jaguar XJ220 seemed to come right out of nowhere. In 1986 the company was sold to Ford after ownership under British Leyland, and was producing a selection of strange luxury motors including the XJS and the XJ, which, although were very good and highly luxury machines, weren't exactly setting the world on fire.
But racing had been put forward to the company before, and racing team owner Tom Walkinshaw encouraged Jaguar to put one of their XJS's into the 1981 European Touring Car Championship, in which they succeeded in winning the competition in 1984. Jaguar had started to provide factory support to racing team Group 44 Racing, who were using the Jaguar-engined XJR-5 in the IMSA GT Championship, supplying V12 engines from 1983 onwards and supporting a Le Mans entry in 1984. Tom Walkinshaw and Jaguar agreed to entering the FIA Group C World Sportscar Championship and developed the XJR-6, which was powered by the Jaguar V12 engine; the car was launched during the 1985 season.
TWR took over the IMSA GT Championship operation in 1988 and one model – Jaguar XJR-9 – was launched to compete in both series. The XJR-9, which retained the Jaguar V12 engine, went on to win the 1988 24 Hours of Le Mans and World Sportscar Championship in the same year. The poor fuel consumption of the Jaguar V12 combined with new rules restricting refuelling during races forced the replacement of the V12 engine in the XJR-9s successors, the XJR-10 and XJR-11. The normally-aspirated Austin Rover V64V engine, designed for the MG Metro 6R4 had recently been made redundant thanks to the Group B rally ban in 1987, and the design rights were for sale. The compact, lightweight and fuel efficient nature of the small-displacement, turbocharged engine was investigated by TWR, who considered it an ideal basis for a new engine to power the XJR-10 and purchased the design rights from Austin Rover Group.
Jaguar and their Director of Engineering, Jim Randle, felt these racing cars were too far removed from the product available to the general public, especially with the rule changes that mandated the replacement of the Jaguar V12 engine in the forthcoming XJR-10 and XJR-11 racing cars. Therefore a project was initiated to design and build a car capable of winning Le Mans "in house", just as the Jaguar C-Type and D-Type had done. The groundwork for the project was undertaken by Randle over Christmas 1987, when he produced a 1:4 scale cardboard model of a potential Group B racing car.
The cardboard model was taken into the Jaguar styling studio and two mock-ups were produced. One was said to be reminiscent of the Porsche 956, the other took elements of the then current Jaguar XJ41 project and Malcolm Sayer's work on the stillborn Jaguar XJ13 racing car.
The project still had no official support, leaving Randle no option but to put together a team of volunteers to work evenings and weekends in their own time. The team came to be known as "The Saturday Club", and consisted of twelve volunteers. To justify the resources consumed by the project, the XJ220 needed to provide meaningful data to the engineers on handling, aerodynamics, particularly at high speeds, and aluminium structures. These requirements, together with FIA racing regulations and various government regulations governing car design and safety influenced the overall design and engineering direction of the car.
The FIA Group B regulations steered the concept towards a mid-engine, four-wheel drive layout, with a Jaguar V12 engine as the power source. The concept car was designed and built at very little cost to Jaguar, as Randle called in favours from component suppliers and engineering companies he and Jaguar had worked with in the past. In return he offered public recognition for their assistance and dangled the possibility of future contracts from Jaguar.
The name XJ220 was chosen as a continuation of the naming of the Jaguar XK120, which referred to the top speed of the model in miles per hour. The concept car had a targeted top speed of 220 mph so became the XJ220. The XK120, like the XJ220, was an aluminium-bodied sports car, and when launched was the fastest production car in the world.
Jaguar and engine designer Walter Hassan had previously created a 48-valve variant of their V12 engine specifically for motorsport use. It featured a double overhead camshaft layout with four valves per cylinder, compared with the single overhead camshaft and two valves per cylinder of the production engine, which was used in the Jaguar XJ and Jaguar XJS models at the time.
TWR and Cosworth had manufactured a number of these racing V12 engines during the 1980s and they had been raced competitively, with a 7-litre version of this engine featuring in the Le Mans winning Silk Cut Jaguar XJR-9. Five of these engines still existed, all of which were fitted with dry sump lubrication. These engines were chosen and considered to be especially useful as the dry sump would lower the vehicle's centre of gravity. The displacement of the V12 was set at 6.2L for the XJ220.
Jaguar had little experience with four-wheel drive systems at the time, having previously only produced rear-wheel drive cars. Randle approached Tony Rolt's company, FF Developments to design the transmission and four-wheel drive system for the XJ220, with Rolt's son Stuart running the project. Tony Rolt was the Technical Director of Ferguson Research, where he was heavily involved in the design of the four-wheel drive system used in the Jensen FF, the first sports car to be fitted with such a transmission. Tony Rolt also had a long involvement with Jaguar, winning the 1953 24 Hours of Le Mans with the factory works team driving the Jaguar C-Type.
The mid-engine complicated the design of the four-wheel drive system, and an innovative solution was needed to get drive from the rear of the engine to the front wheels. The chosen design took the front-wheel drive from the central differential on the rear transaxle and sent it through the V in the centre of the engine using a quill drive, before joining an inverted differential. The clutch was a twin-plate unit designed by AP Racing.
The design brief for the exterior restricted the use of aerodynamic aids, and aimed for a stylish yet functional body similar to the Jaguar D-Type. Drag and lift were limited at the envisioned ground clearance for road use, but the design allowed for additional downforce when the car was set up for racing; the body produced around 3,000 lb of downforce at 200 mph. The design was also intended to have a variable rear wing that folded into the bodywork at lower speeds. Aerodynamic work was undertaken at the Motor Industry Research Association wind tunnel using a 1:4 scale model, as the project was unable to budget for a full-scale mock-up.
The bodywork for the concept car displayed in 1988 was hand built from aluminium by Park Sheet Metal, a specialist automotive engineering company that manufactures concept cars and low-volume, niche models for various manufacturers, including Bentley. QCR Coatings undertook final painting of the bodyshell in silver. The concept also featured electrically operated scissor doors and a transparent engine cover to show off the V12 engine.
The concept car had a Connolly Leather-trimmed interior produced by Callow & Maddox, and was fitted with front and rear heated windscreens, electric windows, air conditioning, heated electrically adjustable seats with an Alpine Electronics CD player. The dashboard was supplied by Veglia.
The concept car was completed in the early hours of 18 October 1988, the day it was due to be unveiled at the British International Motor Show, being held at the National Exhibition Centre, Birmingham.
Jaguar's marketing department had allocated space on their stand at the motor show for the XJ220, but had not seen the vehicle until its arrival. Jaguar chairman John Egan and Roger Putnam, who was in charge of Jaguar's racing activities, were shown the vehicle the week before the motor show and signed off on the concept, allowing its unveiling. The car received an overwhelmingly positive reception by public and press, and a number of wealthy Jaguar enthusiasts handed over blank cheques to secure a purchase option should the XJ220 concept go into production. Ferrari displayed their F40 model at the same event; an estimated 90,000 additional visitors came to see the Jaguar and Ferrari cars.
The XJ220 was not initially intended to be a production car, but, following the reception of the concept and financial interest from serious buyers, a feasibility study was carried out by teams from TWR and Jaguar. Its conclusion was that such a car would be technically feasible, and that it would be financially viable. The announcement of a limited production run of 220 to 350 cars came on 20 December 1989. The list price on 1 January 1990 was £290,000 exclusive of value added tax, options and delivery charges, but by 1992 that had increased considerably owing to indexation of contracts. The offer was four times oversubscribed, and deposits of £50,000 exclusive of Value Added Tax (VAT) were taken from around 1400 customers; first deliveries were planned for mid-1992.
What Jaguar didn't reckon on was that the 1990's were going to get off to a very bad start, with a good old fashioned recession to usher in the new decade. This, combined with the various downgrades that would have to follow to make the car road legal, would result in the Jaguar XJ220 giving the company and the customers headaches in more ways than one.
In 1991, the company constructed a new £4 million factory at Wykham Mill, Bloxham, for the single purpose of building the XJ220, the plant being opened by the late Princess Diana. But, in order to comply with a variety of road legislation, engineering requirements resulted in significant changes to the specification of the XJ220, most notably replacement of the Jaguar V12 engine by a turbocharged V6 engine.This downgraded engine made that desirable rocket car more run-of-the-mill, and many pulled back their deposits.
At the same time the economy collapsed and when the first production cars left the factory in 1992, many of the original potential buyers who had put down their hefty deposits found that they couldn't afford it, and wanted their money back. Many of them cited the fact that the four wheel drive, V12 had been downgraded to a two wheel drive, V6, and thus they weren't getting what they paid for. The result was that Jaguar went so far as to take their customers to court, and forced them to buy a car they no longer wanted, the problem being exacerbated by the fact that in 1993, the McLaren F1 took the title of world's fastest production car, was available with the V12 and all things it promised, and was much smaller and more manageable than the bulky XJ220.
A total of just 275 cars were produced by the time production ended, 22 of their LHD models never being sold, each with a retail price of £470,000 in 1992, probably one of the biggest automotive flops in motoring history, right up there with the DeLorean and the Edsel. But this would later be advantageous for many, as this pedigree 'worlds-fastest-car' machine would go in later years for a much lower price. £150,000 mind you, but it's a lot better buying the one's that weren't sold at this reduced price, than at the initial asking price back in 1992. Therefore buyers were able to procure themselves a first-hand XJ220, for half the price, a representative saving of nearly £250,000.
Today the XJ220's are rare beasts indeed, rarely coming out to play due largely to their expensive upkeep, heavy fuel consumption and sheer size. But keep your eyes open in some of the more affluent neighbourhoods, be they Dubai, Beverley Hills, or the South of France, and chances are you'll be able to find one.
With future sales forecasts likely to remain low, Chrysler had planned on discontinuing the Imperial at the end of the 1973 model year. While image and appearance were an important part of luxury car appeal, without sales Chrysler could not afford to build an Imperial with a unique bodyshell.
A front-end design envisioned for the next Imperial penned by Chrysler/Imperial exterior studio senior stylist Chet Limbaugh came to the attention of Elwood Engel. It featured a "waterfall" grille with thin vertical chrome bars separated by a body-colored band running through the center, which started on top of the nose and flowed down.
To save money the 1974 model would use the same body panels as the Chrysler New Yorker except for the front end clip and trunk lid. This meant that for the first time as a separate marque, the Imperial would share the same wheelbase as a production Chrysler.
With the full effects of the 1973 oil crisis being solidly felt, a bad year for both the U.S. economy and its auto industry was in store for 1974 - cruel timing for Chrysler's 50th anniversary year. The "by Chrysler" script was removed from the car for 1974. The Imperial's electronic ignition system was a U.S. market first, as was the optional car alarm.
While total sales were down from 1973, Chrysler was pleased with the 14,483 Imperials produced, given the poor economy in 1974 and a retail price of $7,230 for the sedan.
The 8C Competizione was introduced at the Frankfurt Motor Show in 2003. The lines of the twin seater are meant to echo the styling of Alfas of the 1930s and 1940s, and the "Competizione" name is a reference to the 1948 6C 2500 Competizione, which competed in the 1949 and 1950 Mille Miglia race and came third both times. It was in the latter of these two races that the car was driven by Juan-Manuel Fangio and Augusto Zanardi. It won the 1950 Targa Florio. A 3.0 litre prototype was built but not produced. These 6C 2500 models were among the last vehicles with links to the pre-war cars.
During the Mondial de l'Automobile 2006, Alfa Romeo announced the production of a limited series of 500 units of the 8C Competizione. The production version is very similar to the concept, with the biggest difference to the exterior being the rear-hinged hood. The car came in four colours: Alfa Red, Competition Red, black or yellow. Custom paint colors were available for an additional charge. The bodyshell is made of carbon fibre, produced by ATR Group. The carbon fibre body is fitted to a steel chassis, made by Italian company ITCA Produzione. The final assembly takes place at the Maserati factory in Modena, Italy.
(Wikipedia)
- - -
Der Alfa Romeo 8C Competizione ist ein zweitüriger Sportwagen des italienischen Autoherstellers Alfa Romeo. Der Name ist ein Hinweis auf die V8-Maschine. Die Schreibweise knüpft bewusst an die Tradition der legendären Alfa Romeo 8C-Modelle aus der Zeit vor dem Zweiten Weltkrieg an.
Der Entwurf stammt von Wolfgang Egger, Leiter des Designzentrums Centro Stile von Alfa Romeo. Der Wagen wurde im Jahr 2003 auf der IAA in Frankfurt am Main als Prototyp erstmals vorgestellt. Im Jahr 2005 wurde beim Pebble Beach Concours d'Elegance auch eine offene Spider-Version ausgestellt. Anfang 2007 hat Alfa Romeo die Produktion des Sportcoupés mit einer Limitierung von 500 Stück aufgenommen.
Die technische Grundkonzeption teilt sich das Coupé in wichtigen Bereichen mit dem Maserati GranTurismo. Der 4,7 l-V8-Motor ist bereits vom Maserati Coupé und von Ferrari-Modellen bekannt. Im Alfa 8C leistet dieser jedoch 332 kW (450 PS). Die Montage des Fahrzeugs erfolgt in den Hallen von Maserati in Modena. Der Wagen verfügt über eine Sechsgang-Schaltung, die wie im Rennsport über Schalter am Lenkrad bedient wird oder optional auch auf Automatik gestellt werden kann. Der Antrieb erfolgt nach dem Transaxle-Prinzip auf die Hinterachse. Die Karosserie besteht aus Gewichtsgründen aus Carbonelementen. Die maximale Beschleunigung von 0 auf 100 km/h erfolgt in 4,2 s und die Spitzengeschwindigkeit liegt bei 292 km/h. Wie im Rennsport üblich, verfügt der Wagen über einen aerodynamisch speziell gestalteten Unterboden, um bei hoher Geschwindigkeit den Auftrieb zu reduzieren. Der Preis liegt bei ca. 160.000 Euro.
Im Februar 2008 wurde die endgültige Version des offenen 8C Spider am Genfer Auto-Salon vorgestellt, es werden ebenfalls nur 500 Stück produziert werden, die alle für einen Preis von mehr als 210.000 Euro bereits vergeben sind.
2008 wurde ein neuer Projekttyp des Alfa Romeo B.A.T. während, aber außerhalb des Genfer Auto-Salons mit der Prototypennnummer B.A.T. 11 basierend auf dem 8C Competizione vorgestellt.
(Wikipedia)
E9
Bonhams : the Zoute Sale
Estimated : € 240.000 - 300.000
Sold for € 178.246
Zoute Grand Prix 2018
Knokke - Zoute
België - Belgium
October 2018
1973 was a landmark year for BMW, for not only did the German manufacturer power Jean-Pierre Jarier to the European Formula 2 Championship, it also captured the European Touring Car Championship using one of the most iconic racing 'saloons' of modern times: the 3.0 CSL, known popularly as the 'Batmobile'.
BMW had returned to six-cylinder power for its range-topping models in 1968 with the launch of the 2500 and 2800 saloons. Also new was the 3.0 CSL's forerunner, the 2800CS coupé, though the latter's running gear had more in common with the existing, four-cylinder 2000C/CS. The introduction of the similarly styled 3.0-litre CS in 1971 brought with it numerous improvements, including four-wheel ventilated disc brakes, and with 180bhp on tap the model was good for around 130mph. For racing purposes there was the lightweight 3.0 CSL.
Visually indistinguishable from its more 'run of the mill' relations, the CS and CSi, the 3.0 CSL (Coupé Sport Leicht) was creative homologation at its best. The BMW engineers' solution to the marketing department's requirements was to develop a limited production run 'homologation special' to meet the constrictive framework of the Group 2 racing class regulations. By removing the trim; using thinner steel for the main bodyshell; aluminium alloy for the doors, bonnet and boot lid; and Perspex for the side windows a valuable 300lbs (136kgs) in weight was saved – 'Leicht' indeed.
Homologated initially with a fractionally over-bored (3,003cc) engine (enabling it to compete in the over 3-litre class) the 3.0 CSL came with 206bhp for road use and well over 300 horsepower for the track. In 1973 the engine's stroke was increased, upping capacity to 3,153cc (nominally 3.2 litres) and from mid-season onwards the racing CSLs used the so-called 'Batmobile' aerodynamic package, developed at Stuttgart University, which consisted of a front chin spoiler, large rear wing and various other devices. Illegal for road use in Germany, the wings were left in the boot for final installation after purchase.
Thus equipped, the Batmobiles were able to defeat the previously all-conquering Ford Capri RS2600s, Toine Hezemans capturing the 1973 European Touring Car Championship for BMW at the wheel of a 3.0 CSL and co-driving one to a class win at Le Mans that year with Dieter Quester. Ford bounced back in 1974 but from 1975 onwards the BMW Batmobiles won five consecutive European Touring Car Championships, a quite unprecedented run of success.
This original, left-hand drive BMW 3.0 CSL Batmobile is offered fresh from extensive recommissioning and restoration. According to BMW, chassis number '2275537' was manufactured on 25th September 1973 and delivered on 2nd November 1973 to the UK importer, BMW London Ltd. The original colour was Polaris metallic, paint code 060.
In 1975, the car was purchased by the lady vendor's father, a Dumfries garage proprietor, having been first registered in the UK in October of that year. Its owner drove the BMW for circa five years, servicing it himself. Since 1980, the car has sat in his workshop, and over the years was dismantled with a view to restoring it. The current odometer reading is circa 57,279 kilometres (approximately 35,600 miles) which in view of the car's lengthy period of inactivity is believed genuine.
Early in 2018, the Batmobile was delivered to Classic Restorations (Scotland) Ltd in Alyth as a bodyshell and crates of parts, to be rebuilt. We are advised that the works included a complete engine overhaul: new cylinder head, pistons, bearings, chains, etc. In addition, the suspension and brakes were completely overhauled with all components cleaned and powder coated prior to re-assembly. Other components renewed include the clutch; clutch and brake master cylinders; metal brake pipes and hoses; radiator; alternator; distributor; exhaust system; and tyres.
The bodywork has had some small patches welded to the inner wheelarches, which have been sealed and coated with 3M Body Schutz (in black). The rear spoiler has been stripped, repaired, and partially repainted (the body had already been repainted in the original silver colour). The interior has been re-upholstered and the carpets and headlining renewed using new original BMW material throughout. Accompanying paperwork consists of sundry restoration invoices and photographs; current MoT certificate; and a UK V5 registration document.
With only some 110 Series 1 Batmobiles produced compared to over 19,000 standard CS/CSi models, these 'specials' will always be rare and today this ultimate BMW coupé is highly sought after.
Originally conceived by British Leyland, the Metro was built to similar principals as those of the Mini it was intended to replace, with a small, practical platform with as much use available to the passenger as was possible. The car came under various initial guises, including the Austin Metro, the Austin miniMetro, the Morris Metro van and the MG Metro, a version of the car with a 1.3L A-Series Turbo Engine.
Although the car was launched in 1980, development of a Mini replacement had dated back to the beginning of the 70's. Dubbed ADO88 (Amalgamated Drawing Office project number 88), the Metro was eventually given the go ahead in 1977, but wanted to have the appeal of some of the larger 'Supermini' (what a contradiction in terms) cars on the market, including cars such as the Ford Fiesta and the Renault 5. Designed by Harris Mann (the same guy who gave us the Princess and the Allegro), the car was given a much more angular body for the time, but despite its futuristic looks did share many features of the earlier Mini, including the 675cc BMC-A Series engine that dated back to 1959, and the gearbox. Initial cars also included the Hydragas Suspension system originally used on the Allegro and the Princess, though with no front/rear connection. The car was also built as a hatchback, which would eventually be a key part of its success as the Mini instead utilised only a small boot.
The Metro was originally meant for an earlier 1978 launch, but a lack of funds and near bankruptcy of British Leyland resulted in the car's launch being pushed back. This delay however did allow the folks at Longbridge to construct a £200m robotic assembly plant for the new Metro line, with the hope of building 100,000 cars per year. Finally the car entered sales 3 years late and got off to quite promising initial sales, often being credited for being the saviour of British Leyland. The Metro was in fact the company's first truly new model in nearly 5 years, with the 9 year old Allegro still in production, the 1980 Morris Ital being nothing more than a 7 year old Marina with a new face, and the 5 year old Princess not going anywhere!
As mentioned, an entire myriad of versions came with the Metro, including the luxury Vanden Plas version and the sporty MG with its top speed of 105mph and 0-60mph of 10.1 seconds. Eventually the original incarnation of the car, the Austin Metro, went on to sell 1 million units in it's initial 10 year run, making it the second highest selling car of the decade behind the Ford Escort. However, like most other British Leyland products, earlier cars got a bad reputation for poor build quality and unreliability, combined with the lack of rustproofing that was notorious on many BL cars of the time.
The show was not over however, as in 1990 the car was given a facelift and dubbed the Rover Metro. The 1950's A-Series engine was replaced by a 1.1L K-Series, and the angular bodyshell was rounded to similar principals as those by acclaimed styling house Ital to create a more pleasing look for the 90's. This facelift, combined with an improvement in reliability and build quality, meant that the car went on to win the 'What Car?' of the Year Award in 1991.
In 1994 the car was given yet another facelift, with once again a more rounded design and removal of the Metro name, the car being sold as the Rover 100. Engines were once again changed, this time to a 1.5L Peugeot engine and more audacious colour schemes were available for the even more rounded design of the new car. However, the car was very much starting to look and feel its age. Aside from the fact that the design dated back to 1977, the new car was not well equipped, lacking electric windows, anti-lock brakes, power steering, or even a rev counter! In terms of safety, it was very basic, with most features such as airbags, an alarm, an immobiliser and central locking being optional extras.
Eventually the curtain had to fall on the Metro, and in 1997, twenty years after the initial design left the drawing board, it was announced that the car would be discontinued. Spurred on by dwindling sales due to lack of safety and equipment, as well as losing out to comparative cars such as the ever popular Ford Fiesta, VW Polo and Vauxhall Corsa, with only fuel economy keeping the car afloat, Rover axed the Metro in 1998 with no direct replacement, although many cite the downsized Rover 200 a possible contender. Stumbling blindly on, the next car to fill the gap in Rover's market was the 2003 CityRover, based on the TATA Indica, which flopped abysmally and pretty much totalled the company (but that's another story).
In the end only 2,078,000 Metro's were built in comparison to the 5.3 million examples of the Mini that it was meant to replace. The main failings of the Metro were down to the fact that the car was too big compared to the Mini, and the rounded old-world charm of the Coopers and Clubmans was replaced by the angular corners. Because of this the car simply didn't have the novelty that the Mini continued to claim even 20 years after the first ones left the factory, and the Mini would even go on to outlive the Metro by another 2 years, ending production in 2000, then going on to have a revival in the form of BMW's New Mini Cooper that's still being built today. Unlike the Mini, the Metro also failed to conquer the international market in the same way, scoring its 2 million units pretty much in Britain alone, although some cars were sold in France and Spain, but only to the total of a few hundred.
The Metro however survived only on fuel economy and its spacious interior, but by the early 1990's, whilst other car manufacturers had moved on leaps and bounds, Rover continued to be stuck in the past with not the money or the enthusiasm to change what was a terribly outdated and extremely basic car. Towards the end the Metro, which had only a few years earlier won awards for its practical nature, was ending up on lists for Worst car on the market.
Today however you can still see Metro's, later editions are especially common on the roads of Britain. Earlier models built under British Leyland have mostly rusted away and are apparently only down to about a thousand nowadays, but the Rover 100's and Rover Metros continue to ply their trade, a lonely reminder of how here in Britain, we can never ever seem to move on!
Reg Number: N/A
Chassis Number: SL71/19
Engine Number: T.B.A.
Cc: 5434
Body Colour: Dark Green
Trim Colour: Silver
MOT ExpiryDate: N/A
Lola's line of successful two-seater racing cars dates back to the daddy of them all - the 1956 Broadley Special; a triumphant Ford-powered racer built by cousins Eric and Graham Broadley. Encouraged by its potential, Eric, a quantity surveyor by profession, then penned the more sophisticated Coventry-Climax-powered Lola MKI. Victories flowed almost immediately, bringing purchase requests from those wanting to emulate its results. Lola Cars Ltd was born.
One of the first to spot the potential of building a mid-engined sports racer around a large capacity V8, Broadley conceived the MK6 (Lola GT) for 1963. This made second fastest lap at Le Mans that year and impressed a lot of people; not least the board of Ford Motor Co, who had just failed to wrestle Ferrari from its founder. They felt Broadley's latest creation could be their key to victory at La Sarthe and signed him up to work alongside their own engineers. The result was the all-conquering GT40. Broadley's Ford contract concluded in the summer of 1964, however, leaving him free to design cars for his Lola customers once more. His priority was to use the lessons learned from the GT40 to create a lighter, open-bodied car in the same guise for the 1965 season. Enter the stunningly handsome Lola T70, which was unveiled at the 1965 Racing car Show, London.
The MKI version proved a trifle fragile initially. However, the potential was clear enough and the first victory fell to the man engaged to help develop the car, newly-crowned F1 World Drivers' Champion, John Surtees, who triumphed in the Player's 200 at Mosport in Canada on June 5th. Another regular T70 MKI campaigner was David Hobbs and it was he who achieved the first home win for the car in the Guards Trophy race at Mallory Park just two days later. Other victories for the T70 in 1965 included:
August 15th - Daily Mirror, Croft - Hobbs
August 30th - Guards Trophy, Brands Hatch - Surtees
September 19th - Players, Mont-Tremblant - Surtees
October 17th - 200 Mile, Laguna Seca - Walt Hansgen
The Lola camp ended the season in great concern, however, when Surtees sustained life threatening injuries while testing a T70 at the Mosport circuit, as the result of a failed front suspension upright. Happily, not only did he make a full recovery over the winter, but bounced back to win the inaugural Can-Am Series of 1966, with victory in three of the six races at the wheel of a T70 MKII. On the home front that year, popular New Zealander Denny Hulme won six of the seven UK races and finished the season holding outright lap records at seven different circuits, courtesy of the Sid Taylor MKII.
A straight evolution of the MKI, the aluminium/steel monocoque chassis of the MKII contained 45 per cent less steel and was largely of riveted rather than welded construction. The result was a 70 lb reduction in weight. The body was made in glassfibre, the rear section of which was quickly removable for access to the engine and other major components. By ceasing to colour impregnate the bodyshells, Lola saved a valuable 35 lbs in weight. Front suspension was by double wishbone and telescopic spring/dampers units. The rear featured wishbones and radius rods with telescopic spring/damper units. Braking was by 12-inch Girling ventilated discs mounted inboard at either end. Steering was by the rack and pinion system from the BMC 1100. The 15-inch cast magnesium bolt-on wheels were 8-inches wide at the front and 10-inches wide at the rear. The chassis was built to take either Chevrolet 289 or 327 cu in engines, or their equivalent Ford units. Following the experiences of 1965, Hewland LG 500 four-speed gearboxes were now fitted as standard. The track and wheelbase were quite similar to those of a GT40, but the car was an astonishing nine inches lower. At approximately 1,500 lbs (with Ford engine) or 1,600 lbs (Chevrolet), it was also notably lighter.
1966 was certainly the year of the T70 on both sides of the Atlantic, and though Lola continued to develop the car - producing MKIII and MKIIIB derivatives, the writing was on the wall. The McLaren M6A became the dominant force in the 1967 Can-Am season, while Group 9 - the category in which the T70 had excelled - was dropped from the UK calendar. The best days of the model where behind it.
It is unclear exactly how many examples were made altogether, though at least 100 appear to have left the factory in period - 51 of which are known to still exist today. Moreover, such is the demand for T70s in historic racing, that Lola laid down a further seven FIA-recognised chassis in 2007/2008.
For obvious reasons, original T70s rarely come to market these days, so the sale of T70 MKII, chassis No.SL71/19, is a great opportunity for the many fans of the model. It was delivered new to Tony Sargeant under the banner of Racing Partnerships (Jersey) Ltd in December 1965 for the trio of Sargeant, Hugh Dibley and Mac Daghorn to campaign the following season. The intention was to take in Group 9 and other races in the UK and the new Can-Am series on the other side of The Pond. At this stage in its history the car was red in colour and generally ran with the number 53 on its flanks.
The Lola's impressive UK results for 1966 came amidst grids populated by the likes of Chris Amon, Mike Parkes, Brian Redman, David Piper, Denny Hulme, Bruce McLaren, John Surtees, Richard Attwood, Jacky Ickx, Innes Ireland, Peter Gethin, Frank Gardener and Graham Hill. Chronicled below, they can be summarised by driver as follows:
Sargeant - 2 x first; 1 x third
Dibley - 1 x first; 2 second; 1 x fourth; 2 x fifth
Daghorn - 1 x first
Date, Race, Chassis, Driver, Entrant - Results
10.4.1966 Scott-Brown Memorial Snetterton, Lola T70 #SL71/19, Tony Sargeant, Racing Partnership Team - DNF
11.4.1966 Mallory Park [Formula Libre], Lola T70 #SL71/19, Tony Sargeant, Racing Partnership Team - 1st
29.4.1966 Tourist Trophy, Lola T70 #SL71/19, Hugh Dibley, Racing Partnership Team - Unknown
14.5.1966 Daily Express Silverstone, Lola T70 #SL71/19, Hugh Dibley, Racing Partnership - 5th
18.6.1966 Rufforth [Formula Libre] , Lola T70 #SL71/19, Tony Sargeant, Racing Partnership - 3rd
9.7.1966 Martini Trophy Silverstone, Lola T70 #SL71/19, Hugh Dibley, Racing Partnership - 4th
16.7.1966 GP Brands Hatch, Lola T70 #SL71/19, Hugh Dibley, Racing Partnership (Jersey) - 1st
23.7.1966 Phoenix Park, Lola T70 #SL71/19, Tony Sargeant, Racing Partnership - DNF
30.7.1966 Snetterton, Lola T70 #SL71/19, Tony Sargeant, Racing Partnership - 1st
6.8.1966 Norbury Trophy Crystal Palace, Lola T70 #SL71/19, Mac Daghorn - 1st
14.8.1966 Wills Trophy Croft , Lola T70 #SL71/19, Hugh Dibley, Racing Partnership - 2nd
14.8.1966 Croft [Formula Libre], Lola T70 #SL71/19, Tony Sargeant, Racing Partnership - 1st
21.8.1966 Castle Combe, Lola T70 #SL71/19, Hugh Dibley - 5th
29.8.1966 Guards Trophy Brands Hatch, Lola T70 #SL71/19, Hugh Dibley, Racing Partnership (Jersey) - DNF
11.9.1966 Can-Am St. Jovite, Lola T70 #SL71/19, Hugh Dibley, Racing Partnerships (Jersey) - DNS
SL71/19 was one of six T70s competing in the home races and ran in more events than any of the others. The season did not end on a high note however. Indeed, it ended abruptly on September 11th, when Dibley was seeking to qualify the car at St Jovite, Canada - the venue for the first ever Can-Am race. While cresting a rise, the car flipped onto its back. Dibley emerged relatively unscathed, but the car was to take no further part in the event, or indeed in the championship (contrary to some contemporary reports that said it was repaired and ran in the St Jovite and two other Can-Am events that year).
In fact, the crashed Lola was towed from Canada to Florida where it is believed to have lain untouched until purchased by renowned Lola restorer Mac McClendon in 1975. Another long period of inactivity followed, until Norwegian enthusiast Fred Larsen commissioned McClendon to restore the car for him. It was at this point SL71/19 was re-borne in `as-new' condition, fitted with a 1963 5.7-litre Chevrolet engine and finished in its current dark green colour scheme. The Lola was recently repatriated and reunited with its original owner, who now offers it for sale.
A stunning example of the T70's golden period, SL71/19 provides a rare opportunity for historic racers and collectors alike.
Nedtrain Watergraafsmeer 04/11/2017 14h44
Due to the fact that the Nedtrain maintenance yards celebrated it's 10th anniversairy an open day was organized. It was possible to wander around in the shed where many different train types could be visited. Like this Traxx locomotive built by Bombardier and normally in service for Intercity Direct and Intercity Brussels services.
Traxx
Bombardier TRAXX is a modular product platform of electric and Diesel-electric mainline locomotives built by Bombardier Transportation, built in both freight and passenger variants. The first version was a dual voltage AC locomotive built from 2000 for German railways; later versions include DC versions, as well as quadruple voltage machines, able to operate on most European electrification schemes: 1.5/3.0 kV DC and 15/25 kV AC. The family was expanded to include diesel powered versions in 2006. Elements common to all variants include the steel bodyshells, the two bogies with two powered axles each, the three-phase asynchronous induction motors, the cooling exhausts on the roof edges, and the wheel disc brakes.
The TRAXX brand name itself was introduced in 2003. The acronym stands for Transnational Railway Applications with eXtreme fleXibility Locomotives were primarily made for the railways of Germany, with orders coming from other countries including France, Israel, Switzerland, Sweden, Norway, Italy, Belgium, Luxembourg, Poland, Spain, Hungary, South Africa and the Netherlands.
More information:
Rene Bonnet Djet (1962-64 as Rene Bonnet (1965-67) Matra) Engine 1108cc S4 OHV Renault Cleon Production 198 (as Bonnet = 179 1108cc + 21 1491cc) + 1491 as Matra Djet)
Registration Number BAE 703 B
Originally designed by Rene Bonnet and later mdified for Matra production by Jaques Hubert. The car had various names in its life from 1962 till 1967: René Bonnet Djet, Matra Bonnet Djet, Matra Sports Djet and finally Matra Sports Jet. with this early 1108cc Djet later referred to as Djet 1.
The car is powered by a 1,108 cc Renault 8 mid-engine mated to a Renault Estafette gearbox, giving a top speed of 165 km/h (103 mph). The fiberglass body was made by Matra, which was glued to a steel chassis. Matra also provided the factory where the Djets were built, in Romorantin.
The Djet had a very modern design with disc brakes and independent suspension with wishbones and coil springs all around.
The two seater Djet became the world's first mid-engined production road car, on its introduction in 1962, beating the de Tomaso Vallelunga which was introduced in 1963 and weigh in at only 600kg.
When Bonnet got into financial troubles, Matra (who supplied both the bodyshells and the factory location) took over René Bonnet Automobiles and its debts in October 1964 and production of the original Djet ceased in December 1964. It was considered a great opportunity by Matra's CEO, Jean-Luc Lagardère, to expand Matra's business to the automobile market. Matra hired former Simca designer Philippe Guédon and modified the original Bonnet Djet, the car became slightly bigger
Thanks for 16.9 Million views
.
Shot at the La Vie en Bleu meeting, Prescot Hill. 02:06:2013 Ref: 94-210
Originally conceived by British Leyland, the Metro was built to similar principals as those of the Mini it was intended to replace, with a small, practical platform with as much use available to the passenger as was possible. The car came under various initial guises, including the Austin Metro, the Austin miniMetro, the Morris Metro van and the MG Metro, a version of the car with a 1.3L A-Series Turbo Engine.
Although the car was launched in 1980, development of a Mini replacement had dated back to the beginning of the 70's. Dubbed ADO88 (Amalgamated Drawing Office project number 88), the Metro was eventually given the go ahead in 1977, but wanted to have the appeal of some of the larger 'Supermini' (what a contradiction in terms) cars on the market, including cars such as the Ford Fiesta and the Renault 5. Designed by Harris Mann (the same guy who gave us the Princess and the Allegro), the car was given a much more angular body for the time, but despite its futuristic looks did share many features of the earlier Mini, including the 675cc BMC-A Series engine that dated back to 1959, and the gearbox. Initial cars also included the Hydragas Suspension system originally used on the Allegro and the Princess, though with no front/rear connection. The car was also built as a hatchback, which would eventually be a key part of its success as the Mini instead utilised only a small boot.
The Metro was originally meant for an earlier 1978 launch, but a lack of funds and near bankruptcy of British Leyland resulted in the car's launch being pushed back. This delay however did allow the folks at Longbridge to construct a £200m robotic assembly plant for the new Metro line, with the hope of building 100,000 cars per year. Finally the car entered sales 3 years late and got off to quite promising initial sales, often being credited for being the saviour of British Leyland. The Metro was in fact the company's first truly new model in nearly 5 years, with the 9 year old Allegro still in production, the 1980 Morris Ital being nothing more than a 7 year old Marina with a new face, and the 5 year old Princess not going anywhere!
As mentioned, an entire myriad of versions came with the Metro, including the luxury Vanden Plas version and the sporty MG with its top speed of 105mph and 0-60mph of 10.1 seconds. Eventually the original incarnation of the car, the Austin Metro, went on to sell 1 million units in it's initial 10 year run, making it the second highest selling car of the decade behind the Ford Escort. However, like most other British Leyland products, earlier cars got a bad reputation for poor build quality and unreliability, combined with the lack of rustproofing that was notorious on many BL cars of the time.
The show was not over however, as in 1990 the car was given a facelift and dubbed the Rover Metro. The 1950's A-Series engine was replaced by a 1.1L K-Series, and the angular bodyshell was rounded to similar principals as those by acclaimed styling house Ital to create a more pleasing look for the 90's. This facelift, combined with an improvement in reliability and build quality, meant that the car went on to win the 'What Car?' of the Year Award in 1991.
In 1994 the car was given yet another facelift, with once again a more rounded design and removal of the Metro name, the car being sold as the Rover 100. Engines were once again changed, this time to a 1.5L Peugeot engine and more audacious colour schemes were available for the even more rounded design of the new car. However, the car was very much starting to look and feel its age. Aside from the fact that the design dated back to 1977, the new car was not well equipped, lacking electric windows, anti-lock brakes, power steering, or even a rev counter! In terms of safety, it was very basic, with most features such as airbags, an alarm, an immobiliser and central locking being optional extras.
Eventually the curtain had to fall on the Metro, and in 1997, twenty years after the initial design left the drawing board, it was announced that the car would be discontinued. Spurred on by dwindling sales due to lack of safety and equipment, as well as losing out to comparative cars such as the ever popular Ford Fiesta, VW Polo and Vauxhall Corsa, with only fuel economy keeping the car afloat, Rover axed the Metro in 1998 with no direct replacement, although many cite the downsized Rover 200 a possible contender. Stumbling blindly on, the next car to fill the gap in Rover's market was the 2003 CityRover, based on the TATA Indica, which flopped abysmally and pretty much totalled the company (but that's another story).
In the end only 2,078,000 Metro's were built in comparison to the 5.3 million examples of the Mini that it was meant to replace. The main failings of the Metro were down to the fact that the car was too big compared to the Mini, and the rounded old-world charm of the Coopers and Clubmans was replaced by the angular corners. Because of this the car simply didn't have the novelty that the Mini continued to claim even 20 years after the first ones left the factory, and the Mini would even go on to outlive the Metro by another 2 years, ending production in 2000, then going on to have a revival in the form of BMW's New Mini Cooper that's still being built today. Unlike the Mini, the Metro also failed to conquer the international market in the same way, scoring its 2 million units pretty much in Britain alone, although some cars were sold in France and Spain, but only to the total of a few hundred.
The Metro however survived only on fuel economy and its spacious interior, but by the early 1990's, whilst other car manufacturers had moved on leaps and bounds, Rover continued to be stuck in the past with not the money or the enthusiasm to change what was a terribly outdated and extremely basic car. Towards the end the Metro, which had only a few years earlier won awards for its practical nature, was ending up on lists for Worst car on the market.
Today however you can still see Metro's, later editions are especially common on the roads of Britain. Earlier models built under British Leyland have mostly rusted away and are apparently only down to about a thousand nowadays, but the Rover 100's and Rover Metros continue to ply their trade, a lonely reminder of how here in Britain, we can never ever seem to move on!
The CL Series Valiant was introduced in November 1976. Although it used the same bodyshell as the previous VK range, the front and rear ends were restyled. The front end used horizontally arrayed quad round headlamps flanking a central grille. The front guards and bonnet were also reworked accordingly. The new bootlid's curved leading edge flowed down to new taillights that sandwiched a simple centre garnish panel. The bumpers, however, were the same units as had been used on the 1969 VF series Valiants.
The 3.5 L (215 cu in) Hemi-6 and 5.9 L (360 cu in) V8 were dropped, and the only engine options were low- and high-compression versions of the 4.0 L (245 cu in) Hemi-6 and the 5.2 L (318 cu in) V8. The CL's introduction had closely coincided with that of the strict exhaust emission regulations contained in ADR 27A. With the 318 engine, a new emissions control system was introduced: Electronic Lean Burn.
Valiant and Regal sedans also benefited from the 1978 introduction of Radial Tuned Suspension in response to Holden's having marketed their suspension as particularly suited to radial tyres.
36,672 CL Valiants — including the last-ever Chargers — were built.
This Valiant wagon is created for the #mocaround49 challneg #vacationwagon
The 1956 Chevrolet was the middle year of what has come to be known as the 'tri-fives', as such, it was the first refresh of the 1955 bodyshell. Notably the radiator grille was now leaned forward at the top, producing a longer hood (bonnet) profile.
Models were again arranged 150, 210 and Bel Air. The Nomad two-door Hardtop Wagon shown here is considered to be a sub-variant of the Bel Air series, and was not available in any other trim level. The car shared a long arc chrome strip with the 210 model, which drooped at the tail and split the body in models with two-tone paint. The roof was paired to the upper bodysides (behind a vertical chromed trim feature half way along the car), along with the trunk, while the hood matched the upper bodyside, ahead of the vertical split (just behind the front door), along with the painted surface under the horizontal arc.
A range of six and vee-eight engines were available, the V8 was a 265 CID (4.3 L) rated at 170 bhp (127 kW), 210 bhp (157 kW) or 225 bhp (168 kW) depending on the carburetor configuration. Power was to jump considerable the following year with the introduction of the 283 CID (4.6 L ) small block.
Other GM divisions, picked up new bodies for 1957, with the exception of Chevrolet and Pontiac. The 1957 was a hasty refresh of the 1955/56, the top Bel Air trim becoming one of the most famous and sought after Chevrolet models.
Here we are, one of the rarest Rolls Royces and indeed cars to ever trundle down the roads, the last of the mighty Corniche. Although sold only as the Corniche, it is often dubbed the Corniche 2000 or the Corniche V, depending on your preference.
The last of the original Silver Shadow based Corniche's of the 1960's were built in 1995, and for three years Rolls Royce only sold the Silver Spirit and Spur until these were replaced by the Silver Seraph in 1998 following acquisition of the company by both Volkswagen and BMW.
Volkswagen was contracted to build Bentley and Rolls Royce vehicles between 1998 and 2003, whilst BMW supplied the engines to replace the original Rolls Royce V8 that had been handed down since the introduction of the Silver Shadow in 1965. In the end BMW were only able to supply their own V12 to the Silver Seraph, whilst the original RR V8 continues to be used even to this day, with a 6.75L version ending up in the Corniche V.
Either way, to compliment the new Silver Seraph, plans were launched to create a convertible two-door saloon version with the revived Corniche name. However, instead of taking a regular Silver Seraph, removing the rear doors and cutting off its roof, Rolls Royce instead went to long time partners Bentley for design assistance, with the result that the Corniche V is in fact built on the platform and with the bodyshell of the Bentley Azure,with Rolls Royce grille and badging, as well as Silver Seraph styling added instead. This was the first, and only Rolls Royce car to be derived from a Bentley product, instead of the usual tradition where Bentley cars were derived from Rolls Royce models.
In January 2000 that car was launched and became the company's flagship motor, with a base price of $359,900. As mentioned, the car is powered by a 6.75L Rolls Royce V8, providing 325hp and whisking the car to a top speed of 135mph at a rate of 0-60 in 8 seconds, which is pretty good going for a 6,000lb luxury saloon!
Inside the car came outfitted with every luxury and refinement characteristic of a Rolls-Royce. The car has a Connolly Leather interior, Wilton wool carpets, chrome gauges and a wide choice of exotic wood trims. Dual automatic temperature control, a six-disc CD changer, automatic headlamps and automatic ride control are standard.
Vehicles were built to order, but the heavy base price made them not as easy to purchase as the technically similar Bentley Azure, which meant that eventually only 374 of these cars were built between 2000 and 2002 when BMW took full control of Rolls Royce.
The Corniche V has the distinction of being the last ever Rolls Royce to be built at their traditional Crewe Factory, which had housed the company since 1946. On August 30th, 2002, a Corniche with chassis number SCAZK28E72CH02079 left the factory as the final Rolls Royce product of their home base, leaving in the company of a classic 1907 Rolls Royce Silver Ghost.
Following the departure of Rolls Royce, the company set up shop in Goodwood near Chichester in the south of England, where the next car to be built was the 2003 Phantom. The spiritual successor of the Corniche V is essentially the Phantom Drophead Coupe, but this is a point of conjecture. Production at the Crewe factory was turned over entirely to Volkswagen and the construction of Bentley automobiles. The Bentley Azure continued in production until 2009, bringing an end to the 14 year old design that had helped spawn the last of the Corniches.
Originally the name was meant to be revived on Rolls Royce's latest car, but in the end was dubbed the Wraith.
Today you'd be very, very hard pressed to find one of these cars. Although many forget about the Corniche V and indeed the Silver Seraph, the surviving examples can still fetch a hefty price of up to £250,000 and more...
...that is except for one. Not to lower the tone of things, but sadly a certain somebody did in fact once own a 2002 Corniche V, and once his illicit acts became known to the public in 2011, his £250,000 Roller is now well and truly worthless.
The owner who bought the car at an auction before the scandal came to light now can't even give away the car, and has never even driven it because they're too ashamed and disgusted of the vehicle's unfortunate past.
I find this particular story very sad because as is always the case, the cars aren't evil, but the owners can sometimes be...
Humber Sceptre 1 (1963-65) Engine *1592cc S4 OHV
Production 17,011
Registration Number HAS 101 (Cherished number first issued in Inverness)
HUMBER SET
www.flickr.com/photos/45676495@N05/sets/72157623665287863...
Humber variation on the Hillman Super Minx/Singer Vogue theme. With the Super Minx bodyshell but a unique roof, glass and upper/rear bodywork not shared with the Super Minx or the related Singer Vogue. Originally intended as a replacement for the Sunbeam Rapier but was launched as a Humber while a modified Rapier continued until 1967.. This resulted in the Sceptre being more sporty in character than traditional Humbers. The Sceptre was positioned at the top of the mid-range Rootes Group cars, above the Hillman Super Minx and Singer Vogue. It featured similar twin headlight styling to the Vogue and a more powerful 80 bhp, The high level of equipment included disc front brakes, overdrive, screen washers, reversing lamp, rev counter and a full range of instruments. Automatic transmission was made available later. Whilst the Super Minx and Vogue received revised six light styling in 1964, the Sceptre body continued unchanged until 1965 when it was replaced by the MK II.
*This car is powered by the later 1725cc engine fitted from the 1966 in the Humber Sceptre (Ser.II)
Many thanks for a fantabulous 37,130,700 views
Shot at the Black Country Car Show, Himley Hall 06.09.2015 Ref 106-869
Sold for £ 5.500
The Jaguar Land-Rover Collection
Brightwells Auctions
Bicester Heritage
Buckingham Road
Bicester
Oxfordshire
England
March 2018
The Austin/Morris 1100 range was an instant hit. Its Pininfarina styling was very up-to-the-minute and its clever Hydrolastic suspension made it ride even better than its sophisticated European competition. Issigonis had another hit on his hands.
So impressed was Fred Connolly (owner of the famous leather firm) with the ride and comfort of the humble 1100 that he approached Vanden Plas (one of his main customers) with the idea of introducing a limousine in miniature - based on the 1100.
The idea was enthusiastically embraced and the new model launched at the 1963 Earls Court Motorshow. Eventually nearly 40.000 Princess 1100/1300s were to be produced, initially from Longbridge, but latterly from Vanden Plas themselves where they took an MG bodyshell complete with twin carb 55bhp engine and painted, coach-lined and trimmed the car to their normal high standard. Complete with full Connolly leather interior, lashings of burr walnut to the dash and doors, picnic tables and the oversized Vanden Plas grille at the front, the recipe was complete.
This stunning 1968 model comes to us with only a current V5C in the way of paperwork. An MOT check shows it was last tested in 2012, so it will no doubt need some careful servicing before venturing forth once more, having covered barely 30 miles since then.
A quick look at the car confirms that its indicated mileage of just 16.873 is very likely to be correct, although as we don’t know for sure, it is only guesswork based on its condition.
We have not attempted to start it since it has been on-site, a job which its lucky new owner can look forward to when they get it home.
With top examples heading east to Japan where they can't get enough of these clever little limousines, prices have sky-rocketed of late, but you never know, it's offered a no reserve so there’s always that chance.
1962-1966 ALFA ROMEO Giulia Sprint | Production: 21,850
A hot little number right now, the ‘step front’ Giulia coupé is very much in demand because of its good looks, driving experience and ease of tuning. Values have increased significantly in recent years, bolstered by the desirability of the GTA. When launched, the twin-cam 1600 versions were quick from the box, but subsequent versions (1750 and 2000) added even more excitement to the mix. Offered in a bewildering array of models, the advice is to go for the example with the best body you can find and worry about the mechanicals after that.
1962-1971 ALFA ROMEO Giulia 1300/1600 Ti/Super | Production: 836,323
The boxy 105-Series Giulia might not look like the most exciting saloon on the planet, but underneath that plain-Jane exterior beats the heart of a truly sporting saloon. Given the lusty twin-cam engines, five-speed gearbox and well set-up chassis, it’s easy to see why Alfa Romeo was so annoyed by the way its cars were depicted being outrun by the Mini-Coopers in The Italian Job. Despite its rarity today, the Giulia was a massive success when new, with much of that founded on it being so good to drive. Well worth seeking out.
1965-1969 ALFA ROMEO Giulia Sprint GTA
The GTA might look like your standard Sprint GT, but it makes extensive use of aluminium body panels. The reason for this was simple – the GTA was built for racing and, wherever possible, weight-saving was applied. The A in its name means Alleggerita, Italian for ’lightened’, and even the sump, camshaft cover, timing cover and clutch housing were replaced by featherweight magnesium alloy items, just to save a few extra kilos. For additional performance, the engine gained a new twin-plug cylinder head. A legend.
1966-1968 ALFA ROMEO Spider 1600 Duetto | Production: 6325
Forever associated with Dustin Hoffman in The Graduate, the stylish little Duetto didn’t hang around for long at all. The pretty little Pininfarina-styled roadster appeared in 1966 as the final genuinely new variant on the 105-Series platform and was marked out by its enclosed headlamps and boat-tail rear end. Powered by the 1570cc twin-cam, it was a gem to drive with great handling, sharp steering and excellent all-round disc braking.
1966-1977 ALFA ROMEO Giulia GT Junior 1300/1600 | Production: 92,053
Due to the complexity of the 105-Series Giulia range the easiest way of relating to the GT Junior is to think of it as the entry-level model. That means it initially came with a 1300cc engine and simplified interior, and gave sporting Italians the chance to own a Giulia Sprint GT lookalike without the fiscal implications. Over time it was developed in parallel with the larger-engined cars and, in 1970, it lost its characteristic step-front. In 1972 a 1600cc Junior was introduced to close the gap in the range to the 2000cc GTV.
1967-1969 ALFA ROMEO 1750/2000 GTV | Production: 44,269/37,459
To ally itself with the launch of the 1750 Berlina, the Giulia Sprint was facelifted to become the 1750 GTV coupé. It retained the original GT1300/GT Junior 1.6 bodyshell but gained a quad-headlight front end and cleaner external trim details (as well as losing the step-front). The revised interior was an ergonomic improvement, although purists prefer the older design. The 1779cc four cylinder was now the base power unit for the non-Junior line, meaning lusty performance. These later models are considered to be the easiest cars to live with.
1967-1971 ALFA ROMEO Spider 1750 Veloce | Production: 8701
After only 18 months in production, the gorgeous little Duetto was discontinued to make way for the 1750 Spider Veloce. The newer car wasn’t a radical change and really just heralded the arrival of the more potent twin-carb engine and uprated suspension and braking set-up. New wheels and tyres, though, made this one a bit of a spotter’s favourite. Although the Duetto name had been dropped in favour of the more traditional Spider moniker, it was very much a case of more of the same. The bigger changes would follow later.
1969-1982 ALFA ROMEO Spider 2000 S1/S2 | Production: 22,059
Alfa Romeo couldn’t leave its cars alone during the 1960s and ‘70s, and after just three years in production, revised the 1750 Spider Veloce to become the 2000 Spider. Unlike last time, when the beautiful Pininfarina styling was largely left alone, the 1970 restyle came at the price of an exterior upgrade, as well as the fitment of the lustier 2000cc twin-cam. The boat-tail gave way to a much longer Kamm tail, while the front end saw the removal of the plastic headlamp covers. The overall effect conspired to make the Spider look less streamlined.
1970-1975 ALFA ROMEO 1300/1600 Junior Z | Production: 1108/402
An appealing Italian ‘bitza’ that somehow transcends the sum of its parts. Created by Zagato using the chassis from the Spider and the five-speed gearbox from the Giulietta, the Junior Zagato was an arresting-looking coupé that added real variety to the Alfa Romeo line-up. The sloping front and Kamm tail were certainly a world apart from the well-crafted classicism of the rest of the Giulia-derived cars, but no less appealing for it. It was lighter and more aerodynamic than the standard cars so it was usefully quicker too.
1982-1993 ALFA ROMEO Spider 2000 S3/S4 | Production: 18,456
The final restyle of the Spider took place at the beginning of 1990 – and Pininfarina was given the honour of preparing the Spider for its final days. The car was rounded off with smoother bumpers and slimmer rear light clusters. By this point the Spider was almost 30 years old, but the new fuel-injected engines, along with power-assisted steering, prolonged its life for three years. North American sales of the S4 Spider remained strong right to the end, with more than 75% of the production run ending up in the USA.
1. Alfa Romeo GT 1300 Junior Bertone - 1971, 2. Alfa Romeo Giulia Sprint GT Veloce (1966) step-nose, 3. Alfa Romeo GT 1600 Junior Bertone - badge, 4. Alfa Romeo GT 1300 Junior - Bertone, 5. Alfa Romeo Giulia GT Coupe Bertone - badge, 6. Alfa Romeo 1750 GT Veloce (1968) Bertone, 7. Alfa Romeo Giulia Series I (1962-1966), 8. Alfa Romeo Giulia 1300 Series I (1962-1966), 9. Alfa Romeo 2000 GT Veloce Bertone Coupe (1974), 10. Alfa Romeo GT 1300 Junior - Bertone, 11. Alfa Romeo Giulia Sprint 1600 GTA (tipo 105.32), 12. Alfa Romeo Giulia 1300 Series I (1962-1966), 13. Alfa Romeo Bertone GT 1300 Junior Coupé (1970)
In the ‘30s and ‘40s Alfa Romeo was a stylish, exclusive marque for buyers who wanted beautiful, fast performance cars. But by the ‘60s and ‘70s Alfa had expanded into the mass market, offering beautiful cars like the Alfa Romeo Junior/Sprint/GT/GTV/GTA/Duetto/Veloce/Giulia/Ti/Super 1300/1600/1750/2000 coupes, spiders, and sedans; special-bodied sports cars by Pininfarina, Bertone, and Zagato.
Created with fd's Flickr Toys
Ford Transit 190 (1987-94) Engine 2933 V6 Petrol
Registration Number F 860 RAS
Ford UK/EUROPE SET
www.flickr.com/photos/45676495@N05/sets/72157623665118181...
The Ford Transit (Mk.3 UK, Mk. 4 Germany) appeared in 1986, on the second generation Ford Transit platform and was notable for its all-new bodyshell which was of one-box design and the front suspension was changed to a fully independent configuration on SWB versions. Most of the engine range was continued from the earlier generation, but the high-performance 3.0 V6 petrol was replaced by the Cologne 2.9 EFI V6. A subtle facelift in 1992 saw the fully independent front suspension adopted across the range, whilst a redesigned floor plan allowed the use of single, rather than paired, rear wheels on the LWB derivative, further increasing payload—these models are identifiable by the slightly more rounded front headlamps.
This is a 190 LWB, Fulton and Wyliie Fire Tender equipped for Airport Fire Duties
Shot at Brooklands 22:10:2013 REF 79-099
Please do not forget to visit the Flag Counter on the link below to record a visit from your country. So far 52 countries (last new country Austria and 32 US states last new State Michigan) Last new overseas visitor Denmark last new US state visitor California
Ford Focus C-Max (1st Gen) Zetec (2003-10) Engine 1997cc S4 TDCi
Registration Number BW 04 GMY
FORD (UK) SET
www.flickr.com/photos/45676495@N05/sets/72157623665118181...
The Ford C-Max is a compact SUV introduced in 2003on the Ford C1 platform also used by the ford Focus Mk.II and the Mazda Premacy and Mazda 5. It seats five passengers and has a large amount of cargo space, which can be increased by folding the rear seats flat. Some models feature diagonally sliding outer rear seats. It also shares the control blade independent rear suspension from the Focus. The available four-cylinder engines are the same as the Focus.
1.6 L Duratec was the basic engine for C-Max, 1.6 L Ti-VCT Duratec was also available.
1.8/2.0 L Duratec HE are the rest of available petrol engines
1.6/2.0 L Duratorq Ford/PSA made diesels were available along with Ford's 1.8 L Endura engine which is upgraded and named Duratorq
In December 2006 a facelift version of the C-Max was unveiled at the Bologna Motorshow, going on sale in the Spring of 2007 called just the C-Max in order to align the Max model line began in 2006 with the larger S-Max.The facelift brought the car in line with Ford's 'Kinetic Design' design language, evidenced through its twin trapezoidal grilles, large wheel arches and angular headlights. However, as the car does not have a bodyshell originally designed for 'Kinetic Design,' Ford officially states that the car contains only 'elements' of the design language.
The first generation C-Max was replaced in 2011 by a second generation model.
Many Thanks for a fan'dabi'dozi 27,097,200 views
Shot 25:07:2014 at Tesco Superstore, Shirley REF: 102-1124
The only Jaguar XJ220 in the world that lived up to its name, being fitted with a stunning V12 engine and making it the world's fastest production car. However, costs, setbacks, a recession or two and a myriad of other problems resulted in the dream becoming a nightmare, and the match of styling and power made in heaven being turned quickly into a BDSM session in hell!
The proposal for the Jaguar XJ220 seemed to come right out of nowhere. In 1986 the company was sold to Ford after ownership under British Leyland, and was producing a selection of strange luxury motors including the XJS and the XJ, which, although were very good and highly luxury machines, weren't exactly setting the world on fire.
But racing had been put forward to the company before, and racing team owner Tom Walkinshaw encouraged Jaguar to put one of their XJS's into the 1981 European Touring Car Championship, in which they succeeded in winning the competition in 1984. Jaguar had started to provide factory support to racing team Group 44 Racing, who were using the Jaguar-engined XJR-5 in the IMSA GT Championship, supplying V12 engines from 1983 onwards and supporting a Le Mans entry in 1984. Tom Walkinshaw and Jaguar agreed to entering the FIA Group C World Sportscar Championship and developed the XJR-6, which was powered by the Jaguar V12 engine; the car was launched during the 1985 season.
TWR took over the IMSA GT Championship operation in 1988 and one model – Jaguar XJR-9 – was launched to compete in both series. The XJR-9, which retained the Jaguar V12 engine, went on to win the 1988 24 Hours of Le Mans and World Sportscar Championship in the same year. The poor fuel consumption of the Jaguar V12 combined with new rules restricting refuelling during races forced the replacement of the V12 engine in the XJR-9s successors, the XJR-10 and XJR-11. The normally-aspirated Austin Rover V64V engine, designed for the MG Metro 6R4 had recently been made redundant thanks to the Group B rally ban in 1987, and the design rights were for sale. The compact, lightweight and fuel efficient nature of the small-displacement, turbocharged engine was investigated by TWR, who considered it an ideal basis for a new engine to power the XJR-10 and purchased the design rights from Austin Rover Group.
Jaguar and their Director of Engineering, Jim Randle, felt these racing cars were too far removed from the product available to the general public, especially with the rule changes that mandated the replacement of the Jaguar V12 engine in the forthcoming XJR-10 and XJR-11 racing cars. Therefore a project was initiated to design and build a car capable of winning Le Mans "in house", just as the Jaguar C-Type and D-Type had done. The groundwork for the project was undertaken by Randle over Christmas 1987, when he produced a 1:4 scale cardboard model of a potential Group B racing car.
The cardboard model was taken into the Jaguar styling studio and two mock-ups were produced. One was said to be reminiscent of the Porsche 956, the other took elements of the then current Jaguar XJ41 project and Malcolm Sayer's work on the stillborn Jaguar XJ13 racing car.
The project still had no official support, leaving Randle no option but to put together a team of volunteers to work evenings and weekends in their own time. The team came to be known as "The Saturday Club", and consisted of twelve volunteers. To justify the resources consumed by the project, the XJ220 needed to provide meaningful data to the engineers on handling, aerodynamics, particularly at high speeds, and aluminium structures. These requirements, together with FIA racing regulations and various government regulations governing car design and safety influenced the overall design and engineering direction of the car.
The FIA Group B regulations steered the concept towards a mid-engine, four-wheel drive layout, with a Jaguar V12 engine as the power source. The concept car was designed and built at very little cost to Jaguar, as Randle called in favours from component suppliers and engineering companies he and Jaguar had worked with in the past. In return he offered public recognition for their assistance and dangled the possibility of future contracts from Jaguar.
The name XJ220 was chosen as a continuation of the naming of the Jaguar XK120, which referred to the top speed of the model in miles per hour. The concept car had a targeted top speed of 220 mph so became the XJ220. The XK120, like the XJ220, was an aluminium-bodied sports car, and when launched was the fastest production car in the world.
Jaguar and engine designer Walter Hassan had previously created a 48-valve variant of their V12 engine specifically for motorsport use. It featured a double overhead camshaft layout with four valves per cylinder, compared with the single overhead camshaft and two valves per cylinder of the production engine, which was used in the Jaguar XJ and Jaguar XJS models at the time.
TWR and Cosworth had manufactured a number of these racing V12 engines during the 1980s and they had been raced competitively, with a 7-litre version of this engine featuring in the Le Mans winning Silk Cut Jaguar XJR-9. Five of these engines still existed, all of which were fitted with dry sump lubrication. These engines were chosen and considered to be especially useful as the dry sump would lower the vehicle's centre of gravity. The displacement of the V12 was set at 6.2L for the XJ220.
Jaguar had little experience with four-wheel drive systems at the time, having previously only produced rear-wheel drive cars. Randle approached Tony Rolt's company, FF Developments to design the transmission and four-wheel drive system for the XJ220, with Rolt's son Stuart running the project. Tony Rolt was the Technical Director of Ferguson Research, where he was heavily involved in the design of the four-wheel drive system used in the Jensen FF, the first sports car to be fitted with such a transmission. Tony Rolt also had a long involvement with Jaguar, winning the 1953 24 Hours of Le Mans with the factory works team driving the Jaguar C-Type.
The mid-engine complicated the design of the four-wheel drive system, and an innovative solution was needed to get drive from the rear of the engine to the front wheels. The chosen design took the front-wheel drive from the central differential on the rear transaxle and sent it through the V in the centre of the engine using a quill drive, before joining an inverted differential. The clutch was a twin-plate unit designed by AP Racing.
The design brief for the exterior restricted the use of aerodynamic aids, and aimed for a stylish yet functional body similar to the Jaguar D-Type. Drag and lift were limited at the envisioned ground clearance for road use, but the design allowed for additional downforce when the car was set up for racing; the body produced around 3,000 lb of downforce at 200 mph. The design was also intended to have a variable rear wing that folded into the bodywork at lower speeds. Aerodynamic work was undertaken at the Motor Industry Research Association wind tunnel using a 1:4 scale model, as the project was unable to budget for a full-scale mock-up.
The bodywork for the concept car displayed in 1988 was hand built from aluminium by Park Sheet Metal, a specialist automotive engineering company that manufactures concept cars and low-volume, niche models for various manufacturers, including Bentley. QCR Coatings undertook final painting of the bodyshell in silver. The concept also featured electrically operated scissor doors and a transparent engine cover to show off the V12 engine.
The concept car had a Connolly Leather-trimmed interior produced by Callow & Maddox, and was fitted with front and rear heated windscreens, electric windows, air conditioning, heated electrically adjustable seats with an Alpine Electronics CD player. The dashboard was supplied by Veglia.
The concept car was completed in the early hours of 18 October 1988, the day it was due to be unveiled at the British International Motor Show, being held at the National Exhibition Centre, Birmingham.
Jaguar's marketing department had allocated space on their stand at the motor show for the XJ220, but had not seen the vehicle until its arrival. Jaguar chairman John Egan and Roger Putnam, who was in charge of Jaguar's racing activities, were shown the vehicle the week before the motor show and signed off on the concept, allowing its unveiling. The car received an overwhelmingly positive reception by public and press, and a number of wealthy Jaguar enthusiasts handed over blank cheques to secure a purchase option should the XJ220 concept go into production. Ferrari displayed their F40 model at the same event; an estimated 90,000 additional visitors came to see the Jaguar and Ferrari cars.
The XJ220 was not initially intended to be a production car, but, following the reception of the concept and financial interest from serious buyers, a feasibility study was carried out by teams from TWR and Jaguar. Its conclusion was that such a car would be technically feasible, and that it would be financially viable. The announcement of a limited production run of 220 to 350 cars came on 20 December 1989. The list price on 1 January 1990 was £290,000 exclusive of value added tax, options and delivery charges, but by 1992 that had increased considerably owing to indexation of contracts. The offer was four times oversubscribed, and deposits of £50,000 exclusive of Value Added Tax (VAT) were taken from around 1400 customers; first deliveries were planned for mid-1992.
What Jaguar didn't reckon on was that the 1990's were going to get off to a very bad start, with a good old fashioned recession to usher in the new decade. This, combined with the various downgrades that would have to follow to make the car road legal, would result in the Jaguar XJ220 giving the company and the customers headaches in more ways than one.
In 1991, the company constructed a new £4 million factory at Wykham Mill, Bloxham, for the single purpose of building the XJ220, the plant being opened by the late Princess Diana. But, in order to comply with a variety of road legislation, engineering requirements resulted in significant changes to the specification of the XJ220, most notably replacement of the Jaguar V12 engine by a turbocharged V6 engine.This downgraded engine made that desirable rocket car more run-of-the-mill, and many pulled back their deposits.
At the same time the economy collapsed and when the first production cars left the factory in 1992, many of the original potential buyers who had put down their hefty deposits found that they couldn't afford it, and wanted their money back. Many of them cited the fact that the four wheel drive, V12 had been downgraded to a two wheel drive, V6, and thus they weren't getting what they paid for. The result was that Jaguar went so far as to take their customers to court, and forced them to buy a car they no longer wanted, the problem being exacerbated by the fact that in 1993, the McLaren F1 took the title of world's fastest production car, was available with the V12 and all things it promised, and was much smaller and more manageable than the bulky XJ220.
A total of just 275 cars were produced by the time production ended, 22 of their LHD models never being sold, each with a retail price of £470,000 in 1992, probably one of the biggest automotive flops in motoring history, right up there with the DeLorean and the Edsel. But this would later be advantageous for many, as this pedigree 'worlds-fastest-car' machine would go in later years for a much lower price. £150,000 mind you, but it's a lot better buying the one's that weren't sold at this reduced price, than at the initial asking price back in 1992. Therefore buyers were able to procure themselves a first-hand XJ220, for half the price, a representative saving of nearly £250,000.
Today the XJ220's are rare beasts indeed, rarely coming out to play due largely to their expensive upkeep, heavy fuel consumption and sheer size. But keep your eyes open in some of the more affluent neighbourhoods, be they Dubai, Beverley Hills, or the South of France, and chances are you'll be able to find one.
Oakridge Easter Car show April 20th 2003
The Jensen Interceptor is a sporting GT-class car hand-built in the United Kingdom by Jensen Motors between 1966 and 1976. The Interceptor name had been used previously by Jensen for an earlier car made between 1950 and 1957. The car broke with Jensen tradition by having a steel bodyshell instead of glass-reinforced plastic and by having the body designed by an outside firm, Carrozzeria Touring of Italy, rather than the in-house staff. The early bodies were Italian-built, by Vignale, before production by Jensen themselves began – with subtle body modifications – in West Bromwich.
For my video; youtu.be/-qVzu_D3OwA
1980 Austin Morris Mini Clubman 1275 GT.
Last SORN declaration expired on 23rd August 2023.
Was blue and then red.
Anglia Car Auctions, King's Lynn -
"Presented as a restoration project, this Mini 1275 GT comprises a bodyshell in primer, good interior parts and trim, doors and front panel, other bits and pieces, built-up subframes and a reconditioned engine assembled onto the rebuilt gearbox. The V5C identifies the Mini as having been blue and registered in July 1980, making it one of the final GT models. Paperwork accompanying the Mini includes the V5C, original book pack with owner's handbook, Passport to Service (stamped up to 47,309 miles in September 1985), Dunlop Denovo Runflat Tyres service book, and a spare set of keys. There are also a couple of specialist invoices relating to the car, for the black door cards and seats (£600) and reconditioned engine (£1580) and rebuilt gearbox (£400)."
Estimate: £3000 to £5000. Sold for £4212 including premium.
The motor trade expert who now heads up a unit that has over 90 years’ combined experience in examining stolen and recovered cars is sharing his tips on how to keep your vehicles safe from theft.
Stolen cars and finding those responsible is one of GMP’s main priorities with continuous force-wide operations running that aim to crackdown on offenders who are actively stealing cars in burglaries and robberies, including using violence often to be sold on, broken into parts or used to commit further crimes.
Peter Johnson joined GMP during the pandemic as the supervisor of the Vehicle Examination Unit (VEU), after spending over 30 years working with a variety of manufacturers in various different roles in the north west. The VEU are responsible for carefully examining vehicles recovered by officers which are either suspected stolen, have no insurance or have had their identities altered.
The unit are a small yet extremely important force resource based in different garages across the region, with each member of the team holding a high degree of skill, knowledge and experience in detecting stolen cars or parts by carefully examining them. They also often assist with large-scale criminal investigations such as one last month which saw five sentenced for a chop shop and selling parts.
Ford and Land Rover/Range Rover vehicles are among the most stolen vehicles reported in recent months. Since the beginning of this year, over 2,500 vehicles have been reported stolen.
“A lot of the stolen cars we have are through burglaries where keys are taken. Criminals are either breaking in and taking the vehicles, or they’re using technology to get past it such as relay signal boosters.” said Peter.
“A lot of these vehicles are then either chopped up into parts and sold, or shipped and resold in another country. Land Rovers and Range Rovers one of the vehicles targeted heavily at the moment.
Peter used to work for Jaguar Land Rover for 12 years, along with Peugeot, Hyundai and Mazda and many more in a range of different roles including parts and servicing and therefore has extensive knowledge of vehicles.
He added: “I’d advise any car owner to be vigilant. The most obviously thing everyone can do is to make sure nothing is visible or in view – criminals can clearly see what’s inside and they will find a way of breaking in or stealing it if they really want the contents or the vehicle itself.
“It often goes without saying, but doing basic things like making sure all doors, windows and sunroofs are locked and secure can really make a difference.
“Never leave keys in a car either. As for keyless vehicles, one of the best things to do is to buy a Faraday pouch which can be bought online at little costs. The key sits in the bag and stops the signal that the key emits, meaning it can’t be picked up by devices that criminals illegally use to open the doors and start vehicles. Manufacturers are aware of this issue nationally and are constantly working on technology and new ways of stopping this from happening.
“Thefts of number plates is also increasing as they’re often swapped by criminals after they’ve stolen a car. Make sure number plates are secured properly which can be done by using anti-theft screws.”
He added: “Steering locks can be a bit fiddly to put on but it’s a huge deterrent. Criminals will often look at it and walk away because of the time it takes to get it off. Most thefts of vehicles are quick and can be done in seconds so anything to reduce how fast they could steal it will help.
“Some car owners also have ghost immobilisers fitted which means they have their own unique procedure to start a car such as pressing different buttons in a certain sequence that’s specific to that vehicle – a bit like a security code. There’s no way criminals can start the car without knowing the code.”
Peter also advised on those buying cars to carry out checks to ensure the vehicles are legitimate and not stolen, as money often cannot be returned if a vehicle is found to be stolen.
“If vehicles are advertised cheap, they’re normally cheap for a reason,” said Peter.
“I’d recommend going to a dealership to check or buying through sellers that are VAT registered or genuine businesses where the buyer can be reassured that all checks have been done prior to the vehicle going on sale. A lot of investigations have found stolen cars advertised as genuine vehicles on social media platforms.
“Anyone looking to buy vehicles privately should check all three identities on the vehicle. Firstly, the visible VIN, which is usually in the lower corner of the front windscreen. The stamped-in VIN, which is physically stamped into the bodyshell in various locations on the vehicle, and the sticker VIN which is usually on door apertures. All cars have got them – make sure they all match. Any signs of tampering of stickers or if they look rough or picked at are often warning signs for us. The VIN in the windscreen should also be uniform and straight.
“It’s also worth checking the registration plate is correct to the vehicle it’s displayed on and it has the selling retailers address and postcode in the middle and the BSAU markings in the lower right corner.
“For anyone struggling, there are plenty of Apps that can also be used to check the identity of vehicles when purchasing one.”
Last year alone, GMP’s Transport and Vehicle Interception Unit (TVIU), who are just one of the teams looking to recover stolen vehicles and find those responsible, recovered over 450 stolen cars – totalling to £8,594,400.00 worth of vehicles. Last month, we jailed a group for a combined total of over 12 months after discovering a chop shop and finding that the group were selling parts from stolen vehicles online. More here: Five sentenced for vehicle chop shop operation | Greater Manchester Police (gmp.police.uk).
Superintendent John Griffith, force lead for Operation Dynamo, said: “We know how distressing it can be to be burgled, and how some people really rely on their vehicles every day, whether that’s for work or their day-to-day lives.
"Cars are of both great value and sentimental value to some people and we understand that having a car stolen can have a huge impact both financially and emotionally.
“There are a number of on-going investigations into those we suspect to be responsible for their involvement in stolen vehicles and though a lot of it can’t be revealed until it’s gone through court, I want to reassure residents of Greater Manchester that we are listening, and we are determined to find those responsible.
"We constantly monitor the number of burglaries across Greater Manchester and information is continuously gathered and acted upon. Teams from across GMP work together to deter, disrupt and ultimately dismantle organised crime groups on a daily basis.
"Officers from GMP's Tactical Vehicle Intercept Unit (TVIU) along with other teams use both covert and marked cars, as well as ANPR technology, to catch who we believed to be burglars and robbers in cars thought to be stolen.
"Stolen cars is a national issue and we continuously work with colleagues across the UK to tackle the issue and carefully piece together evidence and investigations.
"We will continue to work to bring offenders to justice, but I would ask that residents help us to help them by following our advice on our website or Peter’s expert advice.
"Anyone with information about car thefts or anyone who believes suspicious activity is taking place at premises' that may be a ‘chop shop’ can report it online or via LiveChat at www.gmp.police.uk or alternatively, contact Crimestoppers anonymously on 0800 555 111."
Another day, another E-Type, and this example is one of what many consider the better cars, being the stylish and flamboyant Series I fitted with the powerful and reliable 4.2L Straight Six engine!
One of the most revolutionary cars in all of motoring history, a car that has often been declared as the Space Shuttle in the Middle Ages! Beauty, style and performance all harnessed in one simple bodyshell. It can't be anything other than the Jaguar E-Type!
When it was launched in 1961, Britain was still very much an antiquated Victorian country, and transport was not much better. Steam Trains still had another 7 years to go and the most you could get out of the Motor Industry were flaky BMC products such as the humble Austin Cambridge and the Morris Minor. Unbeknownst to this very slow moving world of modesty, the entire picture was about to be turned on its head. In music, the Beatles rocked their way into everlasting legacy, the De Havilland Comet brought nations closer together, and Jaguar launched the E-Type, a car that set the motoring world ablaze!
Designed by Malcolm Sayer and powered by a 3.8L Straight Six engine, the Jaguar E-Type could now whisk people to 150mph, and with there being no speed limits back then, that was not too much of a stretch to imagine. You just had to look at it to see nothing but speed, everything about it was designed to go as fast as possible!
In spirit, the E-Type can trace its roots back to the race ready D-Type, also designed by Malcolm Sayer and notable for raking home victory after victory at Le Mans, being credited with being one of the most advanced sports cars of all time. A limited edition road going version, the XKSS, made the idea of a D-Type on the public highway possible, and parts developed in this often forgotten little gem helped to culminate in the final and superb E-Type.
On March 16th 1961, the E-Type was released upon the unsuspecting public at the Geneva Motor Show to an absolute roar of applause and acclaim. It made the front page of pretty much every newspaper in Europe, and orders absolutely rolled in by the thousand! The thing that made the E-Type so desirable was the fact that it was fun on a budget, a high performance 150mph capable machine for an affordable price of just £2,000, the equivalent of about £40,000 today. Now you may think that's a lot of money, but when you consider that a car of comparable beauty and performance was double that price, you'd know it was something truly special.
However, this proved to be a problem for the comparatively small company, who simply couldn't turn out the cars fast enough to supply the demand. Millions and Millions of Pounds worth of orders were being placed, with some owners even going so far as to place deposits at 10 to 15 Jaguar dealers hoping that one of them could give them a car! The biggest problem was trying to supply differing markets, especially if you were British because in order to appease the desperate American buyers, cars would be built in LHD for 6 month periods at a time, which meant if you were someone wishing to buy a car here in the UK, you'd be stuck for the best part of a year!
But it was obvious why, these cars were unrealistically fast! Tap the pedal and you'd be at 60mph in 7.1 seconds, press it further and you'd be over 100, and if you pressed it further, the bonnet would rise and with blood gushing from your eyes and every fibre of your body telling you to stop, you'd be hitting 150mph! That doesn't sound like much today considering the Aston Martins and Ferrari's we're so used to, but in 1961 this was absolutely unheard of.
Not that your E-Type would ever make 150mph because Jaguar had been a tad naughty. As it turns out the initial test cars that had been leant to the Press had been tuned to reach that golden 150, but the rest of the flock would barely go that fast. This was further compounded by a troublesome gearbox, hopeless brakes, cramped interior and uncomfortable seats. Jaguar's con had only been done to bless their car with the initial fame that would sell the production models, but in 1965 Jaguar chose to redress the issue by fitting the car with a much larger and much better 4.2L Straight Six engine.
But once the novelty had worn off the E-Type was starting to become maligned. Much like owning a topping Rolls Royce, seeing one being driven in the street opened the wounds of jealousy that continued to divide the social classes, and if you were very lucky you'd only get away with a disapproving look or a nasty name, if you weren't expect a brick, a can of paint or a rock to be hurtled in your direction! At the same time because so many cars had been built, the Second Hand market became saturated which meant that people could pick up early ones for a song, which removed the exclusivity that these vehicles had once commanded. Again, much like a Rolls Royce these owners only saw them as ways to get women to take off their clothes for you, and thus didn't exactly give them the love that such cars required.
However, this was before we got to the biggest problem of them all, America.
Actually I take it back, America can't be blamed for everything, in fact the stringent safety legislation and rules on car manufacturing can be credited to the increased safety of modern motor vehicles, the people to be blamed though are in fact the car manufacturers themselves for not being able to incorporate the compulsory safety features whilst still keeping the car stylish.
But still, throughout the 1960's the death of James Dean had resulted in a gradual increase in safety legislation on US Highways, and in order to have a market there, cars had to conform. The height of the headlights, the bumpers, the smoke emissions, the recess of the switches, all of these things were scrutinised and had to be taken into account by car builders. The E-Type became a shameful victim as its looks were compromised with changes to the lights, and body profile. To be honest the Series II was not that bad a car, still retaining much of its charm, especially when you compare it to 1971's Series III which was formulated by British Leyland. With the cabin looking like it had sunk, the lights being stretched and contorted, and sporting a massive 5.3L V12 engine. By this point many of the cars former buyers saw the E-Type as damaged beyond repair and thus sales began to tumble. British Leyland however had been planning to replace the car since the late 1960's, and after much deliberation its replacement, the Jaguar XJS, was launched in 1975, bringing an end to the increasingly hard to sell E-Type. Although very well performing, in terms of looks, the XJS was considered by many classic Jag fans to be absolute heresy, but would go on to have a much longer life that the E-Type, being built until 1996.
However, even before the last E-Type left the production line the originals were already being hailed as classical heroes. In total well over 70,000 of these cars had been sold, and a large number of them remain on the roads. During the late 70's and 80's the car continued to be a major pin-up, often ending up rather oddly, and to my mind a bit shamefully, in erotic films and porn movies (I sure hope they washed thoroughly afterwards). But when you look at the E-Type you can understand why, it is a seriously sexy looking car!
So iconic and so stylish were these cars that over the years many different replica models have also been made. Throughout the 1990's the company Eagle GB built the Eagle E-Type, brand new cars built to exactly the same specifications as the original Series I versions, whilst in 2011 the Eagle Speedster was produced, revising the bodyshape but attempting to maintain the charm of the original, and in 2014 several remaining chassis from the original production run that had been kept in storage are intended to be built into fully functioning cars.
The E-Type may have died a long time ago, but its reputation isn't letting up! :D
With its grounded bodyshell supported by sleepers pictured at Cardiff Canton.
New to Landore >Bristol Bath Road 5/67 > Cardiff Canton 10/69 > Landore > Cardiff Canton 2/86.
Stored Unserviceable 8/91 with collision damage , became the 6th member of the class to be withdrawn when condemned 27/9/91.
4/4/93
Taken 02/02/18; no the Class 800 to not have a silver pillar sticking out of their cabs, but according to Wikipedia are "... a type of electro-diesel train used in the United Kingdom, based on the Hitachi A-train design. They have been built by Hitachi since 2015. The first units entered service on the Great Western Main Line (GWML) in October 2017, and will enter service on the East Coast Main Line (ECML) from December 2018.
These trains are being assembled at the Hitachi Newton Aycliffe facility, alongside the related Class 801 electric multiple unit, from bodyshells shipped from the Kasado plant in Japan; no body construction takes place in the UK.
The Class 800 units are known as IETs (Intercity Express Trains), as part of the Intercity Express Programme (IEP). They have been named Azuma, meaning East in Japanese, by future operator Virgin Trains East Coast."
In the ‘30s and ‘40s Alfa Romeo was a stylish, exclusive marque for buyers who wanted beautiful, fast performance cars. But by the ‘60s and ‘70s Alfa had expanded into the mass market, offering beautiful cars like the Alfa Romeo Junior/Sprint/GT/GTV/GTA/Duetto/Veloce/Giulia/Ti/Super 1300/1600/1750/2000 coupes, spiders, and sedans; special-bodied sports cars by Pininfarina, Bertone, and Zagato.
1. Bertone GTV, 2. Junior 1968 (7), 3. Alfa Romeo Spider, 4. IMG_8439, 5. Alfa Romeo, 6. Alfa Romeo Giulia 1300 TI, 7. Alfa Romeo Spyder, 8. Alfa Romeo GTV Bertone - Meilenwerk Berlin, 9. IMG_3278, 10. Alfa Romeo Spider 1300 Junior Fastback Series 2 "coda tronca", 11. IMG_8439, 12. TEAM LA CHARRETTE- ALFA-ROMEO GIULIA 1600 TI 1964, 13. DSC_0476
1962-1966 ALFA ROMEO Giulia Sprint | Production: 21,850
A hot little number right now, the ‘step front’ Giulia coupé is very much in demand because of its good looks, driving experience and ease of tuning. Values have increased significantly in recent years, bolstered by the desirability of the GTA. When launched, the twin-cam 1600 versions were quick from the box, but subsequent versions (1750 and 2000) added even more excitement to the mix. Offered in a bewildering array of models, the advice is to go for the example with the best body you can find and worry about the mechanicals after that.
1962-1971 ALFA ROMEO Giulia 1300/1600 Ti/Super | Production: 836,323
The boxy 105-Series Giulia might not look like the most exciting saloon on the planet, but underneath that plain-Jane exterior beats the heart of a truly sporting saloon. Given the lusty twin-cam engines, five-speed gearbox and well set-up chassis, it’s easy to see why Alfa Romeo was so annoyed by the way its cars were depicted being outrun by the Mini-Coopers in The Italian Job. Despite its rarity today, the Giulia was a massive success when new, with much of that founded on it being so good to drive. Well worth seeking out.
1965-1969 ALFA ROMEO Giulia Sprint GTA
The GTA might look like your standard Sprint GT, but it makes extensive use of aluminium body panels. The reason for this was simple – the GTA was built for racing and, wherever possible, weight-saving was applied. The A in its name means Alleggerita, Italian for ’lightened’, and even the sump, camshaft cover, timing cover and clutch housing were replaced by featherweight magnesium alloy items, just to save a few extra kilos. For additional performance, the engine gained a new twin-plug cylinder head. A legend.
1966-1968 ALFA ROMEO Spider 1600 Duetto | Production: 6325
Forever associated with Dustin Hoffman in The Graduate, the stylish little Duetto didn’t hang around for long at all. The pretty little Pininfarina-styled roadster appeared in 1966 as the final genuinely new variant on the 105-Series platform and was marked out by its enclosed headlamps and boat-tail rear end. Powered by the 1570cc twin-cam, it was a gem to drive with great handling, sharp steering and excellent all-round disc braking.
1966-1977 ALFA ROMEO Giulia GT Junior 1300/1600 | Production: 92,053
Due to the complexity of the 105-Series Giulia range the easiest way of relating to the GT Junior is to think of it as the entry-level model. That means it initially came with a 1300cc engine and simplified interior, and gave sporting Italians the chance to own a Giulia Sprint GT lookalike without the fiscal implications. Over time it was developed in parallel with the larger-engined cars and, in 1970, it lost its characteristic step-front. In 1972 a 1600cc Junior was introduced to close the gap in the range to the 2000cc GTV.
1967-1969 ALFA ROMEO 1750/2000 GTV | Production: 44,269/37,459
To ally itself with the launch of the 1750 Berlina, the Giulia Sprint was facelifted to become the 1750 GTV coupé. It retained the original GT1300/GT Junior 1.6 bodyshell but gained a quad-headlight front end and cleaner external trim details (as well as losing the step-front). The revised interior was an ergonomic improvement, although purists prefer the older design. The 1779cc four cylinder was now the base power unit for the non-Junior line, meaning lusty performance. These later models are considered to be the easiest cars to live with.
1967-1971 ALFA ROMEO Spider 1750 Veloce | Production: 8701
After only 18 months in production, the gorgeous little Duetto was discontinued to make way for the 1750 Spider Veloce. The newer car wasn’t a radical change and really just heralded the arrival of the more potent twin-carb engine and uprated suspension and braking set-up. New wheels and tyres, though, made this one a bit of a spotter’s favourite. Although the Duetto name had been dropped in favour of the more traditional Spider moniker, it was very much a case of more of the same. The bigger changes would follow later.
1969-1982 ALFA ROMEO Spider 2000 S1/S2 | Production: 22,059
Alfa Romeo couldn’t leave its cars alone during the 1960s and ‘70s, and after just three years in production, revised the 1750 Spider Veloce to become the 2000 Spider. Unlike last time, when the beautiful Pininfarina styling was largely left alone, the 1970 restyle came at the price of an exterior upgrade, as well as the fitment of the lustier 2000cc twin-cam. The boat-tail gave way to a much longer Kamm tail, while the front end saw the removal of the plastic headlamp covers. The overall effect conspired to make the Spider look less streamlined.
1970-1975 ALFA ROMEO 1300/1600 Junior Z | Production: 1108/402
An appealing Italian ‘bitza’ that somehow transcends the sum of its parts. Created by Zagato using the chassis from the Spider and the five-speed gearbox from the Giulietta, the Junior Zagato was an arresting-looking coupé that added real variety to the Alfa Romeo line-up. The sloping front and Kamm tail were certainly a world apart from the well-crafted classicism of the rest of the Giulia-derived cars, but no less appealing for it. It was lighter and more aerodynamic than the standard cars so it was usefully quicker too.
1982-1993 ALFA ROMEO Spider 2000 S3/S4 | Production: 18,456
The final restyle of the Spider took place at the beginning of 1990 – and Pininfarina was given the honour of preparing the Spider for its final days. The car was rounded off with smoother bumpers and slimmer rear light clusters. By this point the Spider was almost 30 years old, but the new fuel-injected engines, along with power-assisted steering, prolonged its life for three years. North American sales of the S4 Spider remained strong right to the end, with more than 75% of the production run ending up in the USA.
The Volkswagen Beetle (officially the Volkswagen Type 1, informally in Germany the Volkswagen Käfer, in Poland the Volkswagen Garbus and in the U.S. the Volkswagen Bug) is a two-door, four passenger, rear-engine economy car manufactured and marketed by German automaker Volkswagen (VW) from 1938 until 2003.
The need for this kind of car, and its functional objectives, was formulated by the leader of Nazi Germany, Adolf Hitler, who wanted a cheap, simple car to be mass-produced for his country's new road network. Hitler contracted Ferdinand Porsche in 1934 to design and build it. Porsche and his team took until 1938 to finalise the design. The influence on Porsche's design of other contemporary cars, such as the Tatra V570 and the work of Josef Ganz remains a subject of dispute. The result was one of the first rear-engined cars since the Brass Era. With 21,529,464 produced, the Beetle is the longest-running and most-manufactured car of a single platform ever made.
Although designed in the 1930s, the Beetle was only produced in significant numbers from 1945 on (mass production had been put on hold during the Second World War) when the model was internally designated the Volkswagen Type 1, and marketed simply as the Volkswagen (or "People's Car"). Later models were designated Volkswagen 1200, 1300, 1500, 1302 or 1303, the former three indicating engine displacement, the latter two derived from the type number. The model became widely known in its home country as the Käfer (German for "beetle") and was later marketed as such in Germany, and as the Volkswagen in other countries. For example, in France it was known as the Coccinelle (French for ladybug).
The original 25 hp Beetle was designed for a top speed around 100 km/h, which would be a viable speed on the Reichsautobahn system. As Autobahn speeds increased in the postwar years, its output was boosted to 36, then 40 hp, the configuration that lasted through 1966 and became the "classic" Volkswagen motor. The Beetle ultimately gave rise to variants, including the Karmann Ghia, Type 2 and external coachbuilders. The Beetle marked a significant trend, led by Volkswagen, Fiat, and Renault, whereby the rear-engine, rear-wheel drive layout increased from 2.6 percent of continental Western Europe's car production in 1946 to 26.6 percent in 1956. The 1948 Citroën 2CV and other European models marked a later trend to front-wheel drive in the European small car market, a trend that would come to dominate that market. In 1974, Volkswagen's own front-wheel drive Golf model succeeded the Beetle. In 1994, Volkswagen unveiled the Concept One, a "retro"-themed concept car with a resemblance to the original Beetle, and in 1998 introduced the "New Beetle", built on the contemporary Golf platform with styling recalling the original Type 1. It remained in production through 2010, being succeeded in 2011 by the more aggressively styled Beetle (A5).
In the 1999 Car of the Century competition, to determine the world's most influential car in the 20th century, the Type 1 came fourth, after the Ford Model T, the Mini, and the Citroën DS.
HISTORY
THE PEOPLES CAR
In April 1934, Adolf Hitler gave the order to Ferdinand Porsche to develop a Volkswagen (literally, "people's car" in German, pronounced [ˈfɔlksvaːɡən]). The epithet Volks- literally, "people's-" had been applied to other Nazi-sponsored consumer goods such as the Volksempfänger ("people's radio").
In May 1934, at a meeting at Berlin’s Kaiserhof Hotel, Chancellor Hitler insisted on a basic vehicle that could transport two adults and three children at 100 km/h while not using more than 7 litres of fuel per 100 km (32 mpg US/39 mpg UK). The engine had to be powerful for sustained cruising on Germany’s new Autobahnen. Everything had to be designed to ensure parts could be quickly and inexpensively exchanged. The engine had to be air-cooled because, as Hitler explained, not every country doctor had his own garage (ethylene glycol antifreeze was only just beginning to be used in high-performance liquid-cooled aircraft engines. In general, radiators filled with water would freeze unless the vehicle was kept in a heated building overnight or drained and refilled each morning).
The "People's Car" would be available to citizens of Nazi Germany through a savings scheme, or Sparkarte (savings booklet), at 990 Reichsmark, about the price of a small motorcycle. (The average weekly income was then around 32RM.)
DEVELOPMENT
Ferdinand Porsche developed the Type 12, or "Auto für Jedermann" (car for everybody) for Zündapp in 1931. Porsche already preferred the flat-four engine, and selected a swing axle rear suspension (invented by Edmund Rumpler), while Zündapp insisted on a water-cooled five-cylinder radial engine. In 1932, three prototypes were running. All of those cars were lost during World War II, the last in a bombing raid in Stuttgart in 1945.
The Zündapp prototypes were followed by the Porsche Type 32, designed in 1933 for NSU Motorenwerke AG, another motorcycle company. The Type 32 was similar in design to the Type 12, but it had a flat-four engine. NSU's exit from car manufacturing resulted in the Type 32 being abandoned at the prototype stage.
Initially designated Type 60 by Porsche, the design team included Erwin Komenda and Karl Rabe. In October 1935, the first two Type 60 prototypes, known as the V1 and V2 (V for Versuchswagen, or "test car"), were ready. In 1936, testing began of three further V3 prototypes, built in Porsche's Stuttgart shop. A batch of thirty W30 development models, produced for Porsche by Daimler-Benz, underwent 2,900,000 km of further testing in 1937. All cars had the distinctive round shape and the air-cooled, rear-mounted engine. Included in this batch was a rollback soft top called the Cabrio Limousine. A further batch of 44 VW38 pre-production cars produced in 1938 introduced split rear windows; both the split window and the dash were retained on production Type 1s until 1953. The VW38 cars were followed by another batch of 50 VW39 cars, completed in July 1939.
The car was designed to be as simple as possible mechanically. The air-cooled 25 hp (19 kW) 995 cc motors' built-in oil cooler and flat-four engine configuration's superior performance was also effective for the German Afrika Korps in Africa's desert heat. The suspension design used compact torsion bars instead of coil or leaf springs. The Beetle is nearly airtight and will briefly float.
THE FACTORY
On 26 May 1938, Hitler laid the cornerstone for the Volkswagen factory in Fallersleben. He gave a speech, in which he named the car Kraft-durch-Freude-Wagen ("Strength Through Joy Car", usually abbreviated to KdF-Wagen). The name refers to Kraft durch Freude ('Strength Through Joy'), the official leisure organization of Nazi Germany. The model village of Stadt des KdF-Wagens was created near Fallersleben in Lower Saxony in 1938 for the benefit of the workers at the newly built factory.
The factory had only produced a handful of cars by the start of the war in 1939; the first volume-produced versions of the car's chassis were military vehicles, the Type 82 Kübelwagen (approximately 52,000 built) and the amphibious Type 166 Schwimmwagen (about 14,000 built).
The first Beetles were produced on a small scale in 1941.
WARTIME PRODUCTION
A handful of KdF-Wagen (Typ 60) were produced primarily for the Nazi elite from 1941 to 1944, but production figures were small because the factories were concentrating on production of the Kübelwagen (Typ 82), the beetle for the Wehrmacht (Typ 82 E), the Schwimmwagen (Typ 166), and a handful of other variants. The factory produced another wartime vehicle: the Kommandeurswagen (Typ 87); a Beetle body mounted on a 4WD Schwimmwagen chassis. The Kommandeurswagen had widened fenders to accommodate its Kronprinz all-terrain tires. 564 Kommandeurswagen were produced up to 1944, when all production was halted because of heavy damage to the factory by Allied air raids. Much of the essential equipment had already been moved to underground bunkers for protection, which let production resume quickly after hostilities ended. Due to gasoline shortages late in the war, a few "Holzbrenner" Beetles were built powered by pyrolysis gas producers located under the front hood.
POST-WAR PRODUCTION AND BOOM
In occupied Germany, the Allies followed the Morgenthau plan to remove all German war potential by complete or partial pastoralization. As part of this, in the Industrial plans for Germany, the rules for which industry Germany was to be allowed to retain were set out. German car production was set at a maximum of 10% of the 1936 car production numbers.
Mass production of civilian VW cars did not start until post-war occupation. The Volkswagen factory was handed over by the Americans to British control in 1945; it was to be dismantled and shipped to Britain. Thankfully for Volkswagen, no British car manufacturer was interested in the factory; an official report included the phrases "the vehicle does not meet the fundamental technical requirement of a motor-car ... it is quite unattractive to the average buyer ... To build the car commercially would be a completely uneconomic enterprise." The factory survived by producing cars for the British Army instead. Allied dismantling policy changed in late 1946 to mid-1947, although heavy industry continued to be dismantled until 1951. In March 1947, Herbert Hoover helped change policy by stating
There is the illusion that the New Germany left after the annexations can be reduced to a "pastoral state". It cannot be done unless we exterminate or move 25,000,000 people out of it.
The re-opening of the factory is largely accredited to British Army officer Major Ivan Hirst. Hirst was ordered to take control of the heavily bombed factory, which the Americans had captured. His first task was to remove an unexploded bomb that had fallen through the roof and lodged itself between some pieces of irreplaceable production equipment; if the bomb had exploded, the Beetle's fate would have been sealed. Knowing Germany needed jobs and the British Army needed vehicles. Hirst persuaded the British military to order 20,000 cars, and by March 1946 the factory was producing 1,000 cars a month (in Army khaki, under the name Volkswagen Type 1), which Hirst said "was the limit set by the availability of materials". During this period, the car reverted to its original name of Volkswagen and the town was renamed Wolfsburg. The first 1,785 Type 1s were made in 1945.
After World War II, it was officially designated the Volkswagen Type 1, but was more commonly known as the Beetle.Following the British Army-led restart of production and Hirst's establishment of sales network and exports to Netherlands, former Opel manager (and formerly a detractor of the Volkswagen) Heinz Nordhoff was appointed director of the Volkswagen factory in 1949. Under Nordhoff, production increased dramatically over the following decade, with the one-millionth car coming off the assembly line by 1955. During this post-war period, the Beetle had superior performance in its category with a top speed of 115 km/h and 0–100 km/h in 27.5 seconds with fuel consumption of 6.7 l/100 km (36 mpg) for the standard 25 kW (34 hp) engine. This was far superior to the Citroën 2CV, which was aimed at a low speed/poor road rural peasant market, and Morris Minor, designed for a market with no motorways / freeways; it was even competitive with more advanced small city cars like the Austin Mini.
In Small Wonder, Walter Henry Nelson wrote:
"The engine fires up immediately without a choke. It has tolerable road-handling and is economical to maintain. Although a small car, the engine has great elasticity and gave the feeling of better output than its small nominal size."
There were other, less-numerous models, as well. The Hebmüller cabriolet (officially Type 14A), a sporty two-seater, was built between 1949 and 1953; it numbered 696. The Type 18A, a fixed-top cabriolet, was produced by Austro-Tatra as a police and fire unit; 203 were assembled between January 1950 and March 1953.
The chassis became a technological and parts donor to Volkswagen Type 2 (also known as Bulli) and external coachbuilders like Rometsch, Dannenhauer & Stauss, Wilhelm Karmann, Enzmann, Beutler, Ghia-Aigle, Hebmüller & Söhne, Drews, Wendler.
On 17 February 1972, when Beetle No. 15,007,034 was produced, Beetle production surpassed that of the previous record holder, the Ford Model T. By 1973, total production was over 16 million, and by 23 June 1992, over 21 million had been produced.
DECLINE
Though extremely successful in the 1960s, the Beetle was increasingly faced with stiff competition from more modern designs globally. The Japanese had refined rear-wheel-drive, water-cooled, front-engine small cars including the Datsun 510 and Toyota Corona, whose sales in the North American market grew rapidly at the expense of Volkswagen in the late 1960s. Honda introduced the N600, based on the space-efficient transverse-engine, front-wheel-drive layout of the original Austin Mini, to the North American market in late 1969, and upgraded the model to the Honda Civic in 1972. The Japanese "big three" would soon dominate compact auto sales in North America. In 1971 Ford introduced its Pinto, which had some market impact as a low cost alternative. As the 1960s came to a close, Volkswagen faced increasingly stiff competition from European cars as well. The Beetle was faced with competition from new designs like the Fiat 127 and Renault 5, and more robust designs based on the Austin Mini layout such as the Superminis. German competitors, Ford and Opel also enjoyed strong sales of modern smaller cars like the Ford Escort and Opel Kadett. Volkswagen's attempts to boost the power of their air-cooled motor to meet the demands of higher highway speeds in the late 1960s, then comply with new pollution control regulations, caused problems for reliability and fuel efficiency that impaired the reputation of the aging design. Safety issues with the Beetle came under increasing scrutiny, culminating in the 1972 release of a rather scathing report. During the early 1970s, sales of the Beetle in Europe and North America plummeted.
There were other models introduced to supplement the Beetle in the VW product line throughout the 1960s; the Type 3, Type 4, and the NSU-based and larger K70. None of these models, aimed at more upscale markets, achieved the level of success as the Beetle. The over-reliance on a single model, now in decline, meant that Volkswagen was in financial crisis by 1974. It needed German government funding to produce the Beetle's replacement.
Production lines at Wolfsburg switched to the new water-cooled, front-engined, front-wheel drive Golf designed by Giorgetto Giugiaro in 1974, sold in North America at the time as the "Rabbit". The Golf would eventually become Volkswagen's most successful model since the Beetle. The Golf would be periodically redesigned over its lifetime, entering its seventh generation in 2012, with only a few components carried over between generations, while the Beetle had only minor refinements of its original design.
The Golf did not kill Beetle production, nor did the smaller Polo which was launched a year later. Production of the Beetle continued in smaller numbers at other German factories until 19 January 1978, when mainstream production shifted to Brazil and Mexico: markets where low operating cost was an important factor. However, this shift in production did not completely end sales of the Beetle in Europe, although after this date sales of the Beetle in Europe were very low. Beetle sedans were produced for U.S. markets until July 1977 and for European markets until 1985, with private companies continuing to import cars produced in Mexico after 1985. The Beetle convertible/Cabriolet ended production (as 1979 models) as of January 31, 1980.
The last Beetle was produced in Puebla, Mexico, in July 2003. The final batch of 3,000 Beetles were sold as 2004 models and badged as the Última Edición, with whitewall tires, a host of previously discontinued chrome trim, and the choice of two special paint colors taken from the New Beetle. Production in Brazil ended in 1986, then started again in 1993 and continued until 1996.
The Beetle outlasted most other cars which had adopted the rear air-cooled engine layout such as those by Subaru, Fiat, and General Motors. Porsche's 356 series which originally used some Volkswagen sourced parts, continued to use the classic rear engine layout (which later became water-cooled) in the Porsche 911 996 series, which remains competitive in the second decade of the 21st century.
WORLDWIDE END OF PRODUCTION
By 2002, over 21 million Type 1s had been produced, but by 2003, annual production had dropped to 30,000 from a peak of 1.3 million in 1971. VW announced the end of production in June 2003, citing decreasing demand, and the final original Type 1 VW Beetle (No. 21,529,464) rolled off the production line at Puebla, Mexico, on 30 July 2003 65 years after its original launch. This last Beetle, nicknamed El Rey (Spanish for "The King" after a legendary Mexican song by José Alfredo Jiménez) was delivered to the company's museum in Wolfsburg, Germany.
To celebrate the occasion, Volkswagen marketed a final special series of 3,000 Beetles marketed as "Última Edición" (Final Edition) in light blue (Aquarius Blue) or beige (Harvest Moon Beige). Each car included the 1.6 engine, whitewall tires, a CD player with four speakers, chrome bumpers, trim, hub caps and exterior mirrors, a Wolfsburg emblem above the front trunk's handle, chrome glove box badge, body coloured wheels, tinted glass, a rear parcel shelf, and VW Última Edición plaque.
A mariachi band serenaded production of the last car. In Mexico, there was an advertising campaign as a goodbye for the Beetle. In one of the ads was a very small parking space on the street, and many big cars tried to use it, but could not. After a while, a sign appears in that parking space saying: "Es increíble que un auto tan pequeño deje un vacío tan grande" (It is incredible that a car so small can leave such a large void). Another depicted the rear end of a 1954 Beetle (the year Volkswagen was established in Mexico) in the left side of the ad, reading "Erase una vez..." (Once upon a time...) and the last 2003 Beetle in the right side, reading "Fin" (The end). There were other ads with the same nostalgic tone.
- Engine: Fuel-injected (Bosch Digifant) four-cylinder horizontally opposed, 1,584 cc, 50 hp (37 kW), 98.1 N·m (72.4 lb·ft) @ 2,200 rpm, three-way catalytic converter
- Rated fuel mileage: 32.5 mpg-US (7.2 L/100 km; 39.0 mpg-imp)
- Max cruising speed: 130 km/h
- Brakes: front disc, rear drum
- Passengers: Five
- Tank: 40 L (11 US gal; 9 imp gal)
- Colours: Aquarius blue, Harvest Moon beige.
PROTOTYPES
DIESEL
In 1951, Volkswagen prototyped a 1.3 L diesel engine. Volkswagen made only two of these air-cooled boxer diesel engines (not turbocharged), and installed one engine in a Type 1 and another in a Type 2. The diesel Beetle was time tested on the Nürburgring and achieved 0–100 km/h in 60 seconds.
DESIGN
The Beetle featured a rear-located, rear-wheel drive, air-cooled four-cylinder, boxer engine in a two-door bodywork featuring a flat front windscreen, accommodating four passengers and providing luggage storage under the front bonnet and behind the rear seat – and offering a coefficient of drag of 0.41; to this relatively good CD, the also streamlined rear of car was of help. The bodywork attached with eighteen bolts to its nearly flat chassis which featured a central structural tunnel. Front and rear suspension featured torsion bars along with front stabilizer bar – providing independent suspension at all wheels. Certain initial features were subsequently revised, including mechanical drum brakes, split-window rear windows, mechanical direction-indicators and the non-synchronized gearbox. Other features, including its distinctive overall shape, endured.
Its engine, transmission, and cylinder heads were constructed of light alloy. An engine oil cooler (located in the engine fan's shroud) ensured optimal engine operating temperature and long engine life, optimized by a thermostat that bypassed the oil cooler when the engine was cold. Later models of the carburetor featured an automatic choke. Engine intake air passed through a metallic filter, while heavier particles were captured by an oil bath. After 1960, steering featured a hydraulic damper that absorbed steering irregularities.
Indicative of the car's utilitarian design, the interior featured painted metal surfaces, a metal dash consolidating instruments in a single, circular binnacle, adjustable front seats, a fold-down rear seat, optional swing-out rear windows, front windows with pivoting vent windows, heating via air-to-air exchange manifolds operating off the engine's heat, and a windshield washer system that eschewed the complexity and cost of an additional electric pump and instead received its pressurization from the car's spare tire (located in the front luggage compartment) which was accordingly overinflated to accommodate the washer function.
Throughout its production, VW marketed the Beetle with a four-speed manual transmission. From 1961 (and almost exclusively in Europe), VW offered an optional version of the Saxomat semi-automatic transmission: a regular 4-speed manual transaxle coupled to an electromagnetic clutch with a centrifugal clutch used for idle. Subsequently (beginning in 1967 in Europe and 1968 in the United States), VW offered an optional semi-automatic transmission (marketed as Automatic Stick Shift and also called AutoStick[citation needed]), which was a 3-speed manual coupled to an electro-pneumatic clutch and torque converter.
While the overall appearance of the Beetle changed little over its life span, it received over 78,000 incremental changes during its production.
EVOLUTION AND DESIGN CHANGES
BEETLE CABRIOLET
It was in 1948 that Wilhelm Karmann first bought a VW Beetle sedan and converted it into a four-seated convertible. The Beetle Cabriolet began production in 1949 by Karmann in Osnabrück. After successfully presenting it at VW in Wolfsburg, production started in 1949.
The convertible was more than a Beetle with a folding top. To compensate for the strength lost in removing the roof, the sills were reinforced with welded U-channel rails, a transverse beam was fitted below the front edge of the rear seat cushion, and the side cowl-panels below the instrument panel were double-wall. In addition, the lower corners of the door apertures had welded-in curved gussets, and the doors had secondary alignment wedges at the B-pillar.
The top was cabriolet-style with a full inner headliner hiding the folding mechanism and crossbars. In between the two top layers was 25 mm of insulation. The rear window was tempered safety glass, and after 1968, heated. Due to the thickness of the top, it remained quite tall when folded. To enable the driver to see over the lowered top, the inside rearview was mounted on an offset pivot. By twisting the mirror 180 degrees on a longitudinal axis, the mirror glass would raise approximately 5.1 cm.
The convertible was generally more lavishly equipped than the sedan with dual rear ashtrays, twin map pockets, a visor vanity mirror on the passenger side, rear stone shields, and through 1969, wheel trim rings. Many of these items did not become available on other Beetles until the advent of the optional "L" (Luxus) Package of 1970.
After a number of stylistic and technical alterations made to the Karmann cabriolet, (corresponding to the many changes VW made to the Beetle throughout its history), the last of 331,847 cabriolets came off the production line on 10 January 1980.
1950–1959 MODELS
During this period, a myriad of changes were made throughout the vehicle beginning with the availability of hydraulic brakes and a folding fabric sunroof in 1950. The rear window of the VW Beetle evolved from a divided or "split" oval, to a singular oval. The change occurred between October 1952 and March 1953. Beetles built during this time were known as a "Zwitter", or "hybrid", as they used the split-window bodyshell with oval-model chrome trim, vent windows and dashboard.
1953 models received a redesigned instrument panel. The one-piece “Pope's Nose” combination license plate/brake light was replaced by a smaller flat-bottomed license plate light. The brake light function was transferred to new heart-shaped lamps located in the top of the taillight housings.
In 1954, Volkswagen added 2 mm to the cylinder bore, increasing the displacement from 1,131 (1100) cc to 1,192 (1200) cc. This coincided with upgrades to various key components including a redesign of the crankshaft. This increased power from 30 hp (22 kW; 30 PS) to 36 hp (27 kW; 36 PS) and improved the engine's free revving abilities without compromising torque at lower engine speeds. At the same time, compression ratios were progressively raised as, little by little, the octane ratings of available fuel was raised in major markets during the 1950s and 1960s.
In 1955, the separate brake lights were discontinued and were combined into a new larger taillight housing. The traditional VW semaphore turn signals were replaced by conventional flashing directional indicator lamps for North America.
For 1956, the Beetle received what would become one of its more distinctive features, a set of twin chrome tailpipes. Models for North America gained taller bumper guards and tubular overrider bars.
For 1958, the Beetle received a revised instrument panel, and a larger rectangular rear window replaced the previous oval design.
1960–1969 MODELS
1960 models received a front sway bar along with a hydraulic steering damper.
For 1961, significant technical advances occurred in the form of a new engine and transmission. The engine remained at 1200cc but the power increased to 40 hp (30 kW; 41 PS) primarily due to an increase in compression ratio to 7.1:1. The carburetor received an electric automatic choke and the transmission was now synchronized on all forward gears. The traditional semaphore turns signals were replaced by conventional flashing directional indicators worldwide.
For 1962, the Beetle received a mechanical fuel level gauge in place of the former fuel tap. At the rear, larger tail lights were introduced incorporating a separate amber turn signal section to meet new European standards (these turn signals remained red in the US market until 1973). The former hand-pump style windscreen washer was replaced by a new design using compressed air. A Schrader valve located on the washer fluid tank allowed the system to be charged at a filling station to the recommended 35 psi (2.4 bar).
1964 models could be identified by a widened light housing on the engine lid over the rear license plate.
The largest change to date for the Beetle was in 1965: the majority of the body stampings were revised, which allowed for significantly larger windows. The windshield increased in area by 11% and was now slightly curved, rather than flat. Door windows increased accordingly by 6% (and door vent window edges were canted slightly back), rear side windows 17.5%, and the rear window 19.5%. The result was a more open, airy, modern look.
For 1966, the big news was an optional new 1300cc 50 hp (37 kW; 51 PS) engine in lieu of the previous 1200cc engine that had been the sole engine since 1954. Models so equipped carried a "1300" badge on the engine lid. The 1300cc engine was standard for North America.
For 1967, a yet-again larger-displacement engine was made available: 1500cc, 53 hp (40 kW; 54 PS) at 4,200 rpm. 1200 and 1300 engines continued to be available, as many markets based their taxation on engine size. 1500cc Beetles were equipped with front disc brakes and were identified with a "VW 1500" badge on the engine lid. North America received the 1500 engine as standard equipment, but did not receive front disc brakes. These models were identified by a "Volkswagen" badge on the engine lid.
The rear suspension was significantly revised including a widened track, softer torsion bars and the addition of a unique Z-configuration equalizing torsion spring. On US, UK and Ireland models, the generator output was increased from 180 to 360 watts, and the entire electrical system was upgraded from 6 volts to 12 volts. The clutch disc also increased in size and changes were made to the flywheel. New equipment included a driver's armrest on the door and locking buttons on both doors. Safety improvements included two-speed windscreen wipers, reversing lights (in some markets), and a driver's side mirror. In accord with the newly enacted US Federal Motor Vehicle Safety Standard 108, North American models received a dual-circuit brake system, the clear glass headlamp covers were deleted; the headlamps were brought forward to the leading edge of the front fenders, and the sealed-beam units were exposed and surrounded by chrome bezels.
1968 was a year of major change. The most noticeable of which were the new larger, higher mounted C-section bumpers. At the rear, new larger taillamps were adopted and were able to accommodate backup lamps, which were previously separate bumper-mounted units. Beetles worldwide received the '67 North American style vertical headlamp placement, but with replaceable-bulb headlamps compliant with ECE regulations rather than the US sealed beams. Other improvements were a new outside gas filler with spring-loaded flap, eliminating the need to open the trunk to refuel. The fuel gauge was integrated with the speedometer and was now electrically-actuated rather than cable-operated. The windscreen washer was now pressured by the spare tire, which was to be maintained at a pressure of 42 psi (2.9 bar). A pressure valve in the connecting hose closed airflow to the fluid reservoir if spare tire pressure fell below 30 psi (2.1 bar), which was above the recommended pressures for the road tires. A ventilation system was introduced, which drew fresh air into the cabin from louvres on the front decklid. For improved shifting, the shift lever was shortened, stiffened and moved rearward by
78 mm.
A number of safety improvements were made in order to comply with new American safety regulations: these included trigger-operated outside door handles, a secondary front hood latch, collapsing steering column, soft vent window latches, rotary glove compartment latch and instrument panel knobs labeled with pictographs. US models received a padded instrument panel that was optional in other markets. To meet North American head restraint requirements, VW developed the industry's first high-back bucket seat.
A new 3-speed semi-automatic gear box with torque converter and vacuum-operated clutch became available mid-production year. The semi-automatic models received a vastly improved semi-trailing-arm rear suspension (also known as "Independent Rear Suspension" although the earlier swing axle Beetles were also independent) and eliminated the need for the equalizing torsion spring. This new rear suspension layout would eventually become an option on later models. Beetles equipped with the automatic were identified with a "VW Automatic" badge on the engine lid and a matching decal in the rear window. In North America, the badging and decal were later revised to read, "Automatic Stick Shift".
For 1969, the only exterior change was the fuel filler flap no longer had a finger indentation due to a new interior-mounted fuel door release. For North America, the Beetle received a heated rear window, day/night mirror and the semi-trailing, independent rear-arm suspension as standard equipment.
1970–1979 MODELS
In 1970, A new "L" (Luxus) Package was introduced including, among other items, twin map pockets, dual rear ashtrays, full carpeting, a passenger-side visor vanity mirror, and rubber bumper moldings. The optional 1500 cc engine now came with an engine lid having two rows of cooling louvers, while the convertible's engine lid gained two additional sets for a total of four. For North America, the 1500 cc engine was enlarged to 1600 cc engine and produced 57 hp (43 kW; 58 PS)
For 1971, for the first time there were two Beetles, the familiar standard Beetle and a new larger version that was different from the windscreen forward. All Beetles received an engine upgrade: the optional 1500 cc engine was replaced by a 1600 cc version with twin-port cylinder heads and a larger, relocated oil cooler. The new engine produced 60 hp (45 kW; 61 PS). The ventilation system was improved with the original dash-top vents augmented by a second pair aimed directly at the driver and passenger. For the first time the system was a flow-through design with crescent-shaped air exits fitted behind the rear quarter windows. Airflow could be increased via an optional 2-speed fan. The standard Beetle was now badged as the VW 1300; when equipped with the 1600 engine, it was badged 1300 S, to avoided confusion with the Type 3, which wore VW 1600 badges.
The new larger Beetle was sold as the 1302/1302 S, offering nearly 50% increased luggage capacity. A new MacPherson strut front suspension was incorporated, similar to what was used in the Type 4, and the front track was widened. The new suspension layout allowed the spare tire to be positioned flat under the trunk floor, although the car had to be lengthened slightly to accomplish this. This also allowed a reduction in turning radius. To gain additional trunk volume, the under-dash panel was lowered, allowing the fuel tank to be shifted rearward. From the windscreen back the big Beetle was identical to its smaller progenitor, except for having the semi-trailing arm rear suspension as standard equipment. Overall, the big Beetle was 50 mm longer in length and 35 mm wider and rode on a 20 mm longer wheelbase than the standard model. Both Beetles were available with or without the L Package. The convertible was now based on the 1302 body. In North America, the 1302 was marketed as the Super Beetle and came only with the L Package and 1600 cc engine. While it lacked the front disc brakes that normally accompanied the larger motor, it was fitted with brake drums that were slightly larger than the standard Beetle. With the Super Beetle being sold as the premium model in North America, the standard Beetle, while retaining the same 1600 cc engine, was stripped of many of its earlier features in order to reduce the selling price. Bright window and running board moldings disappeared, along with the day/night mirror, horn ring, map pocket, locking glove box and miscellaneous other items.
1972 models had an 11% larger rear window 40 mm taller, larger front brakes[citation needed] and the convertible engine lid with four rows of louvres was now used on all Beetles. Inside the vehicle, a four-spoke energy-absorbing steering wheel was introduced, the windshield wiper/washer knob was replaced in favor of a steering column stalk, and intermittent wipers were a new option available in selected markets. An engine compartment socket for the proprietary VW Diagnosis system was also introduced. The rear luggage area was fitted with a folding parcel shelf. A limited-edition Commemorative model was launched in celebration of the Beetle's passing the record of the Ford Model T as the world's most-produced automobile. The Commemorative Beetle was a 1302 LS finished in a special Marathon Blue Metallic paint and unique 4.5 x 15 styled steel wheels. In the U.S., it was marketed as the Super Beetle Baja Champion SE.
1973 models featured significantly-enlarged "elephant foot" taillamps mounted in reshaped rear fenders. In the engine bay, the oil-bath air cleaner gave way to a dry element filter, and the generator was replaced with an alternator. The 1302/Super became the 1303 with a new taller wrap-around windscreen. The changes to the cowl and windshield resulted in slight redesign of the front hood. The instrument panel, formerly shared with the standard Beetle, was all-new and incorporated a raised speedometer pod, rocker-style switches and side-window defrosters. The limited-edition GSR (Gelb-Schwarz Rennen) was a 1303 S available only in Saturn Yellow paint equipped with special 140 mm wide sport wheels fitted with 175/70-15 Pirelli Cinturato CN36 high-performance radial tires. Front and rear deck lids were finished in matte black, as was all exterior trim with the exception of the chrome headlamp bezels. Inside were corduroy and leatherette high-bolstered sport seats and a small diameter three-spoke steering wheel with padded leather rim and a small red VW logo on the bottom spoke. In North America, the GSR was sold as the Super Beetle Sports Bug. The North American model had body-color deck lids and was available in Marathon Blue Metallic in addition to Saturn Yellow. In some markets, the sport wheels (in both 4.5-inch and 5.5-inch widths), sport steering wheel and sport seats became available as stand-alone options.
For 1974, North American models received newly required 8.0 km/h impact bumpers mounted on self-restoring energy absorbers, which added approximately 25 mm to the car's overall length. On the Super Beetle, the steering knuckle, and consequently the lower attachment point of the strut, was redesigned to improve handling and stability in the event of a tire blowout. A limited-edition Big Beetle was introduced based on the 1303 LS. Available in unique metallic paint colors, the car featured styled-steel 5.5 in (140 mm) wide sport wheels wrapped in 175/70-15 tires, corduroy seat inserts, upgraded loop-pile carpet, wood-look instrument panel trim and a padded steering wheel with bright accents. In the North American market, a limited-edition Sun Bug was introduced as a standard Beetle or Super Beetle. Both were finished in metallic gold and featured styled-steel 4.5 in (110 mm)-wide sport wheels. Inside were brown corduroy and leatherette seats, loop-pile carpet, and padded four-spoke deluxe steering wheel. The Super Beetle Sun Bug included a sliding-steel sunroof.
In 1975, front turn indicators were moved from the top of the front fenders down into the bumper. At the rear, the license plate light housing was now molded of plastic with a ribbed top surface. To comply with tightening emission standards, the 1600 cc engine in Japanese and North American markets received Bosch L-Jetronic fuel injection, a derivative of the Bosch D-Jetronic system formerly used in the VW Type 3 and Type 4. The injected engine received a new muffler and in California a catalytic converter. This necessitated a bulge in the rear apron under the rear bumper and replaced the distinctive twin "pea shooter" tailpipes with a single offset pipe, making injected models identifiable at a glance. 5 mph (8.0 km/h) bumper-equipped North American models retained fender-top front indicators. The 1303 received rack and pinion steering. In North America, the 1303/Super Beetle sedan was moved upmarket and was now christened La Grande Bug. Similar to the Big Beetle of 1974, La Grande Bug was available in blue or green metallic paint in the U.S. and blue, green or gold metallic in Canada and was equipped with the same features as the 1974 Sun Bug. Mid-year, the Love Bug was introduced for North America: based on the standard Beetle, it was available only in Phoenix Red or Ravenna Green (both colors shared with the VW-Porsche 914) with all exterior trim finished in matte black. A price leader, the Love Bug retailed for less than a standard Beetle. The "Volkswagen" script on the engine lid of all North American Beetles was replaced with a "Fuel Injection" badge.
In 1976, the 1303/La Grande Bug was discontinued, with the larger body continuing only in convertible form. To make up for the loss in North American markets, the standard Beetle was upgraded, regaining some of the features that were removed in 1971. In addition, the 2-speed ventilation fan was included, previously available in North America only on the larger Beetle. The automatic stickshift option was discontinued as well.
1977 models received new front seats with separate head restraints. This was the final model year for the Beetle sedan in North America. The convertible was offered in a Champagne Edition in triple white with the padded deluxe steering wheel, burled elm-grain dash trim and (110 mm wide sport wheels. Approximately 1,000 Champagne Editions were produced.
WIKIPEDIA
Porsche (996) GT3 (1997-05) Engine 3600cc H6 375bhp
Registration Number MX 53 YSO (Manchester)
PORSCHE SET
www.flickr.com/photos/45676495@N05/sets/72157623690528015...
The Porsche 996 was introduced in 1997 for the 1998 model year, replacing the Porsche 993, designed by Pinky Lai under chief designer Harm Lagaay, with an all new body and interior The 996 had little in common with its predecessor, with the first all new chassis platform since the original 911 and a new water-cooled engine. Technically, it was a major change, a complete breakthrough from the original car other than the overall layout.
The 996 was initially available in a coupé or a cabriolet (Convertible) bodystyle with rear-wheel drive, and later with four-wheel drive, utilising a 3.4 litre flat-6 engine generating a maximum power output of 296bhp. Initially
The 996 platform was used as the basis for two lightweight GT variants called GT2 and GT3. The GT3 was based on the standard 996 Carrera, but was stripped for weight saving. The GT3 used the bodyshell of the four-wheel-drive Carrera 4, which incorporated additional front-end stiffening, it also featured stiffer suspension and upgraded brakes. Introduced in 1999 it featured a naturally aspirated 3.6-litre flat-six engine generating a maximum power output 355bhp
996.2
The early 996 had the same front end as the entry-level Boxster, but customer resistance led to a redesigned headlight in 2002 unique to the 996 thus separating the appearance of the two models engine capacity was also increased to 3.6 litres increasing the output of the naturally aspirated gars by 15bhp and the Targa model was added to the model range
The 996 Carrera was superceeded by the 997 for the 2005 model year, though the 996 versions of the Turbo S, GT2 and GT3 models continued into 2005 and 2006 The Mk.II GT3 variant was based on the second generation of the 996, and featured updated aerodynamics, and a more powerful version of the 3.6 L engine from the MK.I, now rated at 375bhp
Diolch yn fawr am 70,567,312 o olygfeydd anhygoel, mwynhewch ac arhoswch yn ddiogel
Thank you 70,567,312 amazing views, enjoy and stay safe
Shot 20.04.2019 at the AMOC Meeting, Donington Ref 138-064
Nº 39.
Ford Galaxie Taxi (Quebec, 1964).
Escala 1/43.
"Taxis del Mundo" - Altaya (España).
Ixo.
Año 2014.
----------------------------------------------------
"El taxi Ford Galaxie 500 - GRANDE Y ESPACIOSO
En 1964, los Ford Fairlane y Galaxie eran los dos modelos de la marca ofrecidos a los taxistas con todo el equipamiento necesario. El Galaxie era un coche de enorme tamaño y conducción muy suave, por lo que era muy apropiado para el servicio de transporte de personas."
- See more at: www.planetadeagostini.es/colecciones-altaya/miniaturas/ta...
-----------------------------------------------------------------------------------------------
Ford Galaxie
From Wikipedia, the free encyclopedia
"The Ford Galaxie was a full-size car built in the United States by the Ford Motor Company for model years 1959 through 1974. The name was used for the top models in Ford's full-size range from 1959 until 1961, in a marketing attempt to appeal to the excitement surrounding the Space Race. In 1962, all full-size Fords wore the Galaxie badge, with "500" and "500/XL" denoting the higher series. The Galaxie 500/LTD was introduced for 1965 followed by the Galaxie 500 7-Litre in 1966. The Galaxie 500 part was dropped from the LTD in 1966, and from the XL in 1967; however the basic series structuring levels were maintained. The "regular" Galaxie 500 continued below the LTD as Ford's mid-level full-size model from 1965 until its demise at the end of the 1974 model year.
The Galaxie was the high volume counterpart to the Chevrolet Impala. Some Galaxies were high-performance, racing specification machines, a larger forebear to the muscle car era. Others were plain family sedans."
(...)
Second generation 1960–1964.
"The 1960 Galaxie was all-new in style, abandoning the ostentatious ornamentation of the 1950s for a futuristic, sleek look. A new body style this year was the Starliner, featuring a huge, curving rear observation window on a pillarless, hardtop bodyshell. The formal roofed 2-door hardtop was not available this year, but the roofline was used for the Galaxie 2-door pillared sedan, complete with chromed window frames."
(...)
1961
"For 1961, the bodywork was redone again, although the underpinnings were the same as in 1960.
(...) the 1961 Galaxie offered a new 390 CID (6.4 L) version of Ford's FE series pushrod V8, which was available with either a four-barrel carburetor or, for serious performance, three two-barrel carburetors."
(...)
1962
"For 1962, the Galaxie name was applied to all of Ford's full size models, as the Fairlane moved to a new intermediate and Custom was temporarily retired. New top-line Galaxie 500 (two-door sedan and hardtop, four-door sedan and hardtop, and "Sunliner" convertible) models offered plusher interiors, more chrome trim outside, and a few additional luxury items over and above what was standard on the plainer Galaxie models. Base Galaxie models were available in two- and four-door sedans as well as the plain Ranch Wagon.
(...) The 292 cu in (4.8 l) V8 was standard on the 500/XL. The XL had as sportier trim inside and out as part of the package. "
(...)
1963
"For 1963, Ford saw no reason to radically change a good thing, and the 1963 model was essentially unchanged save for some freshening and added trim; windshields were reshaped and a four-door hardtop 500/XL was added."
(...)
1964
"Model year 1964 was the fourth and final year of this body style. Interior trim was much altered, and the exterior featured a more sculpted look which was actually designed to make the car more aerodynamic for NASCAR. The formal-roof "boxtop" style was replaced by a slanted-roof design for all non-wagon or convertible models, including sedans. Ford's quality control, spotty when the first Galaxie was introduced, was now as good as it ever was, and many 1964 Fords passed the 100,000-mile (160,000 km) mark intact. The 1964 models gained an enviable reputation as durable, comfortable cars that offered decent handling and road-ability at a reasonable price, so it is no wonder they sold so well."
(...)
Chassis n° 1E1944
Coachwork by Lynx
This car started life as number 3 short nose D Type built by LYNX in 1977. The car was then converted by LYNX into a LYNX XKSS in the 80s.
Bonhams : The Autumn Sale 2020
Estimated : € 250.000 - 350.000
Sold for € 184.000
Autoworld
Brussels - Belgium
September 2020
"The factory fire in February 1957 extinguished the career of the XK SS, a road-going sports car based on the D-Type. As a result of the hiatus in production, and dislocations of plans for new product lines as important as the 3.4 saloon, the XK SS was abandoned. It was a cruel fate for a car that was a true thoroughbred, made in the image of the Le Mans winner, and one of the classic might-have-beens of motoring history." – Eric Dymock, The Jaguar File.
One of the rarest Jaguars of all, the XK SS was a spin-off from the D-Type racing programme. To satisfy the FIA's sports car regulations, the D-Type had been built in numbers greatly exceeding the demand for such a specialised piece of racing equipment, and conversion to road trim was viewed as the best way of clearing unsold stocks, hence the XK SS. The idea of a road-equipped D-Type is credited to Jaguar works driver Duncan Hamilton, who fitted a windscreen and hood to his ex-factory 1954 Le Mans car ('OKV 1') in 1956.
Modifications to make the D-Type acceptable for road use included installing a seat and door on the passenger side; removing the division between driver and passenger; fitting a full-width wraparound windscreen; and heat-shielding the side-exit exhaust system. A mohair hood and detachable side screens provided weather protection, and, as twin fuel tanks and the spare wheel occupied the boot space, a luggage rack was provided on the tail. The 3.4-litre XK engine remained pretty much to racing specification, producing around 250bhp, which, in a car weighing just 18cwt (914kg), made for electrifying performance. Production commenced during the winter of 1956, but the loss of a number of bodyshells in the fire at the Brown's Lane works in February 1957 severely curtailed the XK SS programme, with the result that only 16 had been made when production ceased in November of that year.
Testing an XK SS in 1957, the esteemed American motoring journal Road & Track recorded figures of 5.2 seconds and 13.6 seconds for the 0-60mph and 0-100mph times respectively, which are none too shabby even by today's standards. With an estimated top speed in excess of 150mph, the XK SS remained the fastest catalogued Jaguar sports car for many years.
Like many other legendary sports cars, the Jaguar XK SS inspired a number of imitations. An acknowledged master in this highly specialised field is the Sussex-based firm of Lynx Engineering, which enjoys an international reputation for accuracy and quality second to none. The car we offer is the third chassis manufactured by Lynx and the first of the exclusive series of only nine such replicas built to Jaguar XK SS specification (see email correspondence on file from Lynx and the company's co-founder Chris Keith-Lucas). Its history is known from new; indeed, this XK SS served as Chris Keith-Lucas's wedding car!
Built in the late 1980s, this XK SS takes its identity from a 1967 Jaguar E-Type, chassis number '1E1944', which was registered in the UK as 'PEH 670F'. Of riveted aluminium sheet, the coachwork conforms to the original method of construction. Unlike the original, however, the Lynx XK SS is powered by a larger, 3.8-litre XK six fitted with triple-Weber induction and a stainless-steel sports exhaust system. (Its original engine was a 4.2-litre XK unit taken from a Series 1½ E-Type.) Finished in British Racing Green, the car also features competition wheels and a nicely patinated black leather interior.
Previously owned by Roland Urban, founder of the French Jaguar Drivers' Club, the XK SS was completely overhauled in the early/mid-2000s and was purchased by the current vendor in 2008. In 2009 the engine was overhauled by Paris-based Cecil Cars, while earlier this year the car received new tyres and the carburetion system was overhauled as part of a general check over (see invoice on file for €4,617 from Prestige Garage in Vence, South of France). Offering breathtaking performance with classic Jaguar style, this beautifully executed XK SS re-creation comes with valid French Carte Grise.
The obligatory Default outfit photoset with Aqua.
I actually dont like her as a character, and mainly got the doll because the faceup was the first tolerable from volks in a while, and as a minor surprise bonus the new DD F3 V2.0 body.
All poses are done without supports, and none of the poses are anything new that I havent done before, even with a DD2.
The V2.0 is still mostly the same style F3 frame underneath, with its irritations in a tweaked bodyshell, and the only real improvement has come from the neck notch, which has been a known retrofit for previous bodies since the DD2.
The only Jaguar XJ220 in the world that lived up to its name, being fitted with a stunning V12 engine and making it the world's fastest production car. However, costs, setbacks, a recession or two and a myriad of other problems resulted in the dream becoming a nightmare, and the match of styling and power made in heaven being turned quickly into a BDSM session in hell!
The proposal for the Jaguar XJ220 seemed to come right out of nowhere. In 1986 the company was sold to Ford after ownership under British Leyland, and was producing a selection of strange luxury motors including the XJS and the XJ, which, although were very good and highly luxury machines, weren't exactly setting the world on fire.
But racing had been put forward to the company before, and racing team owner Tom Walkinshaw encouraged Jaguar to put one of their XJS's into the 1981 European Touring Car Championship, in which they succeeded in winning the competition in 1984. Jaguar had started to provide factory support to racing team Group 44 Racing, who were using the Jaguar-engined XJR-5 in the IMSA GT Championship, supplying V12 engines from 1983 onwards and supporting a Le Mans entry in 1984. Tom Walkinshaw and Jaguar agreed to entering the FIA Group C World Sportscar Championship and developed the XJR-6, which was powered by the Jaguar V12 engine; the car was launched during the 1985 season.
TWR took over the IMSA GT Championship operation in 1988 and one model – Jaguar XJR-9 – was launched to compete in both series. The XJR-9, which retained the Jaguar V12 engine, went on to win the 1988 24 Hours of Le Mans and World Sportscar Championship in the same year. The poor fuel consumption of the Jaguar V12 combined with new rules restricting refuelling during races forced the replacement of the V12 engine in the XJR-9s successors, the XJR-10 and XJR-11. The normally-aspirated Austin Rover V64V engine, designed for the MG Metro 6R4 had recently been made redundant thanks to the Group B rally ban in 1987, and the design rights were for sale. The compact, lightweight and fuel efficient nature of the small-displacement, turbocharged engine was investigated by TWR, who considered it an ideal basis for a new engine to power the XJR-10 and purchased the design rights from Austin Rover Group.
Jaguar and their Director of Engineering, Jim Randle, felt these racing cars were too far removed from the product available to the general public, especially with the rule changes that mandated the replacement of the Jaguar V12 engine in the forthcoming XJR-10 and XJR-11 racing cars. Therefore a project was initiated to design and build a car capable of winning Le Mans "in house", just as the Jaguar C-Type and D-Type had done. The groundwork for the project was undertaken by Randle over Christmas 1987, when he produced a 1:4 scale cardboard model of a potential Group B racing car.
The cardboard model was taken into the Jaguar styling studio and two mock-ups were produced. One was said to be reminiscent of the Porsche 956, the other took elements of the then current Jaguar XJ41 project and Malcolm Sayer's work on the stillborn Jaguar XJ13 racing car.
The project still had no official support, leaving Randle no option but to put together a team of volunteers to work evenings and weekends in their own time. The team came to be known as "The Saturday Club", and consisted of twelve volunteers. To justify the resources consumed by the project, the XJ220 needed to provide meaningful data to the engineers on handling, aerodynamics, particularly at high speeds, and aluminium structures. These requirements, together with FIA racing regulations and various government regulations governing car design and safety influenced the overall design and engineering direction of the car.
The FIA Group B regulations steered the concept towards a mid-engine, four-wheel drive layout, with a Jaguar V12 engine as the power source. The concept car was designed and built at very little cost to Jaguar, as Randle called in favours from component suppliers and engineering companies he and Jaguar had worked with in the past. In return he offered public recognition for their assistance and dangled the possibility of future contracts from Jaguar.
The name XJ220 was chosen as a continuation of the naming of the Jaguar XK120, which referred to the top speed of the model in miles per hour. The concept car had a targeted top speed of 220 mph so became the XJ220. The XK120, like the XJ220, was an aluminium-bodied sports car, and when launched was the fastest production car in the world.
Jaguar and engine designer Walter Hassan had previously created a 48-valve variant of their V12 engine specifically for motorsport use. It featured a double overhead camshaft layout with four valves per cylinder, compared with the single overhead camshaft and two valves per cylinder of the production engine, which was used in the Jaguar XJ and Jaguar XJS models at the time.
TWR and Cosworth had manufactured a number of these racing V12 engines during the 1980s and they had been raced competitively, with a 7-litre version of this engine featuring in the Le Mans winning Silk Cut Jaguar XJR-9. Five of these engines still existed, all of which were fitted with dry sump lubrication. These engines were chosen and considered to be especially useful as the dry sump would lower the vehicle's centre of gravity. The displacement of the V12 was set at 6.2L for the XJ220.
Jaguar had little experience with four-wheel drive systems at the time, having previously only produced rear-wheel drive cars. Randle approached Tony Rolt's company, FF Developments to design the transmission and four-wheel drive system for the XJ220, with Rolt's son Stuart running the project. Tony Rolt was the Technical Director of Ferguson Research, where he was heavily involved in the design of the four-wheel drive system used in the Jensen FF, the first sports car to be fitted with such a transmission. Tony Rolt also had a long involvement with Jaguar, winning the 1953 24 Hours of Le Mans with the factory works team driving the Jaguar C-Type.
The mid-engine complicated the design of the four-wheel drive system, and an innovative solution was needed to get drive from the rear of the engine to the front wheels. The chosen design took the front-wheel drive from the central differential on the rear transaxle and sent it through the V in the centre of the engine using a quill drive, before joining an inverted differential. The clutch was a twin-plate unit designed by AP Racing.
The design brief for the exterior restricted the use of aerodynamic aids, and aimed for a stylish yet functional body similar to the Jaguar D-Type. Drag and lift were limited at the envisioned ground clearance for road use, but the design allowed for additional downforce when the car was set up for racing; the body produced around 3,000 lb of downforce at 200 mph. The design was also intended to have a variable rear wing that folded into the bodywork at lower speeds. Aerodynamic work was undertaken at the Motor Industry Research Association wind tunnel using a 1:4 scale model, as the project was unable to budget for a full-scale mock-up.
The bodywork for the concept car displayed in 1988 was hand built from aluminium by Park Sheet Metal, a specialist automotive engineering company that manufactures concept cars and low-volume, niche models for various manufacturers, including Bentley. QCR Coatings undertook final painting of the bodyshell in silver. The concept also featured electrically operated scissor doors and a transparent engine cover to show off the V12 engine.
The concept car had a Connolly Leather-trimmed interior produced by Callow & Maddox, and was fitted with front and rear heated windscreens, electric windows, air conditioning, heated electrically adjustable seats with an Alpine Electronics CD player. The dashboard was supplied by Veglia.
The concept car was completed in the early hours of 18 October 1988, the day it was due to be unveiled at the British International Motor Show, being held at the National Exhibition Centre, Birmingham.
Jaguar's marketing department had allocated space on their stand at the motor show for the XJ220, but had not seen the vehicle until its arrival. Jaguar chairman John Egan and Roger Putnam, who was in charge of Jaguar's racing activities, were shown the vehicle the week before the motor show and signed off on the concept, allowing its unveiling. The car received an overwhelmingly positive reception by public and press, and a number of wealthy Jaguar enthusiasts handed over blank cheques to secure a purchase option should the XJ220 concept go into production. Ferrari displayed their F40 model at the same event; an estimated 90,000 additional visitors came to see the Jaguar and Ferrari cars.
The XJ220 was not initially intended to be a production car, but, following the reception of the concept and financial interest from serious buyers, a feasibility study was carried out by teams from TWR and Jaguar. Its conclusion was that such a car would be technically feasible, and that it would be financially viable. The announcement of a limited production run of 220 to 350 cars came on 20 December 1989. The list price on 1 January 1990 was £290,000 exclusive of value added tax, options and delivery charges, but by 1992 that had increased considerably owing to indexation of contracts. The offer was four times oversubscribed, and deposits of £50,000 exclusive of Value Added Tax (VAT) were taken from around 1400 customers; first deliveries were planned for mid-1992.
What Jaguar didn't reckon on was that the 1990's were going to get off to a very bad start, with a good old fashioned recession to usher in the new decade. This, combined with the various downgrades that would have to follow to make the car road legal, would result in the Jaguar XJ220 giving the company and the customers headaches in more ways than one.
In 1991, the company constructed a new £4 million factory at Wykham Mill, Bloxham, for the single purpose of building the XJ220, the plant being opened by the late Princess Diana. But, in order to comply with a variety of road legislation, engineering requirements resulted in significant changes to the specification of the XJ220, most notably replacement of the Jaguar V12 engine by a turbocharged V6 engine.This downgraded engine made that desirable rocket car more run-of-the-mill, and many pulled back their deposits.
At the same time the economy collapsed and when the first production cars left the factory in 1992, many of the original potential buyers who had put down their hefty deposits found that they couldn't afford it, and wanted their money back. Many of them cited the fact that the four wheel drive, V12 had been downgraded to a two wheel drive, V6, and thus they weren't getting what they paid for. The result was that Jaguar went so far as to take their customers to court, and forced them to buy a car they no longer wanted, the problem being exacerbated by the fact that in 1993, the McLaren F1 took the title of world's fastest production car, was available with the V12 and all things it promised, and was much smaller and more manageable than the bulky XJ220.
A total of just 275 cars were produced by the time production ended, 22 of their LHD models never being sold, each with a retail price of £470,000 in 1992, probably one of the biggest automotive flops in motoring history, right up there with the DeLorean and the Edsel. But this would later be advantageous for many, as this pedigree 'worlds-fastest-car' machine would go in later years for a much lower price. £150,000 mind you, but it's a lot better buying the one's that weren't sold at this reduced price, than at the initial asking price back in 1992. Therefore buyers were able to procure themselves a first-hand XJ220, for half the price, a representative saving of nearly £250,000.
Today the XJ220's are rare beasts indeed, rarely coming out to play due largely to their expensive upkeep, heavy fuel consumption and sheer size. But keep your eyes open in some of the more affluent neighbourhoods, be they Dubai, Beverley Hills, or the South of France, and chances are you'll be able to find one.
Happy ‘May the 4th’!
For this year's Star Wars Day, I have created a new build from one of the newer Star Wars Universe stories, the 2018 film - 'Solo - A Star Wars Story'.
One of the notable vehicle was a navy blue speeder. This vehicle exhibits design asymmetry, but on closer inspection, the design looks as though it is a vehicle that has been damaged along the left hand side, removing some of the external bodywork.
The vehicle I chose to reinterpret the design over is the classic 1963 Ford Falcon Sprint. This US design (different to the very similar car sold in Australia) was available with both a 2-door bodyshell, convertible and with a V8 engine, sort of a precursor to the Falcon-based Mustang launched the following year.
As well as sharing the 'Falcon' name with a future Han Solo vehicle, this model year Ford Falcon also exhibits the best representation of Ford's 1960 'Space-era' styling - rocket pod rear lamps, along with matched single lamp front end.
One styling theme not found on the earth bound car, but featured on the speeder is a kind of targa-top roof ring. I have placed this over the second row seats in an effort to balance the proportions.
This new build is created for #mocaroundgang #mocaround65 #starwars theme, hosted by @poppalars
The final major facelift for the GT6 came in 1970, to make the MK3. This time the whole bodyshell was revised to match the changes made to the Spitfire Mk.IV; these included a cut-off rear end, recessed door handles and a smoother front end. Only detail changes were made to the mechanics, but in 1973 – close to the end of the car's life – the rear suspension was changed again, this time for the cheaper (but still effective) "swing-spring" layout also fitted to the Spitfire Mk.IV. This was a modification of the swing axle rear suspension used on the lesser Herald-derived models, with the transverse leaf spring mounted on a pivot, eliminating roll stiffness at the rear, and thus greatly reducing the jacking effect under cornering loads. To compensate for this loss of roll stiffness, a larger front anti-roll bar was fitted. A brake servo was also added in 1973, and seats were changed from vinyl to cloth. There was still a fairly comprehensive options list, but the "knock-on" wire wheels were no longer available. The unladen weight increased slightly to 2,030 lb (920 kg)
The GT6 proved to be a thoroughly pleasant, well-behaved sports car, certainly after the launch of the MK2. However it never sold in the numbers hoped for by Triumph, and was comprehensively beaten in the marketplace by the arguably inferior MGB. This seems a puzzle; the smaller-engined Spitfire sold better than the MG Midget, but this success eluded the GT6. Triumph always refused to release an official convertible version of the GT6 (although a number of owners successfully created one), and this may be partly responsible; the only likely explanation for this is their reluctance to offer any competition for their TR6 roadster, a strong seller in the USA. Whatever the reason, the GT6 was quietly dropped from the Triumph range at the end of 1973, although a few cars were sold the following year.
(Wikipedia)
- - -
Mit dem Spitfire führte Triumph 1962 einen preisgünstigen Sportwagen ein. Der Konkurrent MG hatte damals von seinem MGB ein Coupé im Angebot, welches sich gut verkaufte. Triumph beauftragte daher den italienischen Designer Giovanni Michelotti mit einem Entwurf auf Basis des Spitfire. Das Resultat lieferte jedoch mit dem Spitfire-Motor aufgrund des höheren Gewichts nicht ausreichende Leistung. Das Problem wurde gelöst, indem man in das neue Spitfirecoupé den 2l-Motor des Triumph Vitesse einbaute.
Das Ergebnis wurde GT6 genannt und im Jahr 1966 vorgestellt. Aufgrund seiner hinteren Heckklappe gab es gewisse Ähnlichkeiten des GT6 zum Jaguar E-Type. Deshalb und wegen seines günstigen Preises erhielt er den Spitznamen Poor man's E-Type (Jaguar E des Armen Mannes). Konzeptionell allerdings geht der GTR6 eher auf die Sunbeam Harrington Alpine Coupés zurück, die das britische Karosseriebauunternehmen Thomas Harrington Coach Builders zwischen 1961 und 1964 auf der Basis des Sunbeam Alpine Roadsters hergestellt hatte.
(Wikipedia)
The final Anglia model, the 105E, was introduced in 1959. Its American-influenced styling included a sweeping nose line, and on deluxe versions, a full-width slanted chrome grille in between prominent 'eye' headlamps. (Basic Anglias featured a narrower, painted grille.[10]) Its smoothly sloped line there looked more like a 1950s Studebaker (or even early Ford Thunderbird) than the more aggressive-looking late-'50s American Fords, possibly because its British designers used wind-tunnel testing and streamlining. Like late-'50s Lincolns and Mercurys and the Citroën Ami of France, the car sported a backward-slanted rear window (so that it would remain clear in rain, according to contemporary marketing claims). In fact, this look was imported from the 1958 Lincoln Continental, where it had been the accidental result of a design specification for an electrically opening (breezway) rear window. As well as being used, by Ford, on the Consul Classic, this look was also copied by Bond, Reliant and Invacar, for their three wheelers. The resulting flat roofline gave it excellent rear headroom. It had muted tailfins, much toned-down from its American counterparts. An estate car joined the saloon in the line-up in September 1961.
The new styling was matched by a new engine, something that the smaller Fords had been needing for some time—a 997 cc overhead-valve straight-4 with an oversquare cylinder bore, that became known by its "Kent" code name. Acceleration from rest was still sluggish (by the standards of today), but it was much improved from earlier cars. Also new for British Fords was a four-speed (manual) gearbox with synchromesh on the top three forward ratios: this was replaced by an all-synchromesh box in September 1962 (on 1198 powered cars) [10]. The notoriously feeble vacuum powered windscreen wiper set-up of earlier Anglias were replaced with (by now) more conventional windscreen wipers powered by their own electric motor[10]. The Macpherson strut independent front suspension used on the 100E was retained.
In October 1962, twenty four year old twin brothers Tony and Michael Brookes and a group of friends took a private Anglia 105e fitted with the Ford £13 Performance Kit to Montlhery Autodrome near Paris and captured 6 International Class G World Records averaging 83.47 mph (134.33 km/h). These were 4,5,6 and 7 days and nights and 15,000, and 20,000 kilometres. (See also Ford Corsair GT) The Anglia's strength and durability meant that no repairs were required whatsoever other than tyre changes.
The car's commercial success has subsequently been overshadowed by the even greater sales achieved by the Cortina: in 1960, when 191,752 Anglias left Ford's Halewood[citation needed] plant in the 105E's first full production year, it set a new production-volume record for the Ford Motor Company[10]. The Anglia Super introduced in September 1962 for the 1963 model year shared the longer stroke 1198 cc version of the Ford Kent 997 cc engine of the newly introduced Ford Cortina[10]. The Anglia Super was distinguished by its painted contrasting-coloured side stripe[10].
A new Anglia saloon tested by the British Motor magazine in 1959 had a top speed of 73.8 mph (118.8 km/h) and could accelerate from 0-60 mph (97 km/h) in 26.9 seconds. A fuel consumption of 41.2 miles per imperial gallon (6.86 L/100 km; 34.3 mpg-US) was recorded. The test car cost £610 including taxes of £180.[9]
The old 100E Anglia became the new 100E Popular and the four-door Prefect bodyshell remained available as the new Ford Prefect (107E) which had all 105E running gear, including engine and brakes, while the 100E Escort and Squire remained available, unchanged. In 1961 the Escort and Squire were replaced by the 105E Anglia estate. Both cars are popular with hot rodders to this day, helped by the interchangeability of parts and the car's tuning potential. The 100E delivery van also gave way to a new vehicle based on the 105E. Identical to the Anglia 105E back to the B post, the rest of the vehicle was entirely new
For my video; youtu.be/FgL5LQqEZkk
The Lancia Fulvia (Tipo 818) is an Italian car introduced at the Geneva Motor Show in 1963 by Lancia and produced until 1976. Fulvias are notable for their role in motorsport history, including winning the International Rally Championship in 1972. On testing it in 1967, Road & Track summed up the Fulvia as "a precision motorcar, an engineering tour de force". Named after Via Fulvia, Roman road leading from Tortona to Torino.
The Fulvia was available in three variants: Berlina 4-door saloon, 2-door Coupé, and Sport, an alternative fastback coupé designed and built by Zagato on the Coupé floorpan.
Specifications:
Chassis
The Fulvia Berlina was designed by Antonio Fessia, to replace the Lancia Appia with which it shared almost no components. The Appia was a rear wheel drive car, however, while the Fulvia moved to front wheel drive like the Flavia. The general engineering design of the Fulvia was identical to that of the Flavia with the major exception of the engine, the Flavia having a four-cylinder horizontally opposed engine and the Fulvia a 'Narrow Angle' vee configuration as featured on most production Lancias from the Lambda. The Fulvia used a longitudinal engine mounted in front of its transaxle. An independent suspension in front used wishbones and a single leaf spring, while a beam axle with a panhard rod and leaf springs was used in back. Four wheel Dunlop disc brakes were fitted to first series Fulvias. With the introduction of the second series in 1970 the brakes were uprated with larger Girling calipers all round and a brake servo. The handbrake design was also changed - using separate drums and brake-shoes operating on the rear wheels.
Engine
The V4 engine of a 1972 Fulvia Berlina
One element that was new was the narrow-angle V4 engine. Designed by Zaccone Mina, it used a narrow angle (12°53'28") and was mounted well forward at a 45° angle. The engine is a DOHC design with a one camshaft operating all intake valves and another operating all exhaust valves. The very narrow angle of the cylinders allowed for use of a single cylinder head.
Displacement began at just 1091 cc with 58 bhp (44 kW) with a 72 mm bore and 67 mm stroke. A higher (9.0:1) compression ratio and the fitment of twin Solex carburettors raised power to 71 bhp (53 kW) soon after.
The engine was bored to 6 mm to enlarge displacement to 1216 cc for the HF model. This, and some tuning, raised output to 80 to 88 bhp (60 to 66 kW).
The engine was re-engineered with a slightly narrower bank angle (12°45'28") and longer (69.7 mm) stroke for 1967. Three displacements were produced: 1199 cc (74 mm bore), 1231 cc (75 mm bore), and 1298 cc (77 mm bore). The new 1298 cc engine was produced in two versions; the type 818.302 produced 87 bhp (65 kW) at 6000 rpm and was fitted to 1st series Coupés, Sports and Berlina GTE and later to the 2nd Series Berlina. The Type 818.303 was first produced with 92 hp (69 kW) and was fitted to the 1st series Coupé Rallye S and Sport S. For the 2nd Series Coupé and Sport power was slightly reduced to 90 hp (67 kW) at 6000 rpm.
The engine was completely reworked for the new 1.6 HF with an even-narrower angle (11°20' now) and longer 75 mm stroke combined with a bore of 82 mm gave it a displacement of 1584 cc, and power ranged from 115 to 132 bhp (85 to 98 kW) depending on tune.
Coupé 1.3 S Montecarlo: 1972–73.
Special edition based on the 1.3 S, commemorating Lancia's victory at the 1972 Monte Carlo Rally. The livery resembled the works car, with matte black bonnet and boot lid bearing Monte Carlo rally plate-style stickers. This version used his own bodyshell with flared wheel arches, similar to but different from the 1.6 HF bodyshell. Other accouterments included 1.6 HF Lusso interior fittings such as bucket seats with headrests, rectangular front fog lamps, no bumpers and black single wing mirror; 4.5J steel wheels of the standard Coupé were fitted.
[Text from Wikipedia]
en.wikipedia.org/wiki/Lancia_Fulvia
This Lego miniland-scale Lancia Fulvia Coupe 1.3 S Monte Carlo - has been created for Flickr LUGNuts' 106th Build Challenge, titled - 'Exclusive Edition!' - a challenge for vehicles made in a 'special edition' - for whatever reason.
Estimated : € 80.000 - 120.000
Sold for € 216.720
The Renault Icons
Auction - Artcurial
Renault Manufacture
Flins-sur-Seine
Aubergenville - France
December 2025
- Prototype set up by Jean Ragnotti
- A crucial link in the history of the rally versions of the R5 Turbo
- Fitted with extremely rare and unobtainable parts
- Fabulous restoration project
The origins of the Maxi 5 Turbo
The first works Renault 5 Turbo in 1980 was the Group 4 model. In 1983, the advent of Group B gave rise to a limited run of 20 cars, the famous ‘Tour de Corse’ series. As a result of the regulations, these had narrower rear tyres, which compromised the cars’ stability, according to Jean Ragnotti himself. In 1983, Patrick Landon, the head of Renault’s rally department, gave his agreement for work to proceed on the final evolution of Renault’s ‘pocket rocket’, the car that would be known as the Maxi 5 Turbo. The goal was to revert to wider rear tyres, but also to equip the car with the latest technological developments, including the DPV anti-lag device derived from Formula 1.
To achieve this, a limited series of 200 R5 Turbo 2 ‘type 8221’ cars were built in order to homologate 20 examples of the Maxi 5 with a slightly increased engine capacity, as the Maxi’s 1527cc engine (rather than the 1397cc engine fitted to the other R5 Turbos) would allow them to be fitted with 11.5in rear wheels.
At the end of 1984, the yellow and black Maxi prototype would be driven by Alain Serpaggi to open the Rallye du Var. Following this, in February 1985, the 20 cars required for homologation were presented to the FFSA in Dieppe ... and 10 were then immediately dismantled! Truth to tell, the rally department did not have the resources to assemble 20 cars and provide the after-sales support to all its customers. Only 10 cars were registered: 3 were delivered in kit form to Carlos Sainz, Renault Chartres and Renault’s competition department in Antony, and 7 had their identification plates removed to add to the stock of spare parts, thus explaining why more Maxis exist today than were assembled at the time!
The Maxi made its debut on the Critérium de Touraine from 8-10 March 1985. The victory of Jean Ragnotti, Renault’s works driver, on the Tour de Corse in May, ahead of its 205 T16, Manta 400, Audi Quattro and Porsche rivals, gave the two-wheel drive Maxi its finest hour. Driven by such talented rallymen as Jean Ragnotti, Didier Auriol , François Chatriot and Philippe Touren in France, and Carlos Sainz in Spain, its power and brutal performance left a lasting impression.
The end of Group B for the 1987 season saw the Maxi banned from international rallies, but brilliant amateur drivers such as Meyer, Thomasse, Roussel and Mathon continued to demonstrate the qualities of this ultimate Renault 5 Turbo to the public.
The Maxi 5 in the auction
The presence in the Renault the Originals Museum of three Maxis allows some interesting comparisons to be made with the car in the auction:
- The ‘yellow and black’ prototype, presented in September 1984 and driven by Alain Serpaggi as the opening car for the Rallye du Var, without a chassis number or identification plates;
- The ‘Philips’ Maxi, driven by Jean Ragnotti, chassis no. 702 and registration no. 9489 YB 91, with its authentic identification plates, referred to as C2 by Renault Sport;
- The ‘Diac’ Maxi, driven by François Chatriot, chassis no. 705, the genuine Diac car from the 1985 and 1986 seasons and fitted with its authentic identification plates (there is also a Maxi claiming to be no. 705 in Belgium).
It should be noted that the competition department in Antony had three Maxis, all registered and in Philips livery; like all the motorsport cars, as those involved at the time will readily admit, the exact identity of each car varied according to the event and the degree of preparation of each car!
So what is the Maxi offered here, without any identification plates or registration papers? It was made over to Renault Heritage in 1990 as the ‘Maquette (Model) 3’, but is it merely a display model?
No, since this car has been driven – indeed, it has 7000km on the clock – and had been fitted with identification plates, the drill holes for which are still present on the right front wheel arch.
The car is on its wheels, but is missing its engine and fuel tanks; it has the polyester, Kevlar and aluminium bodywork of a Maxi 5 Turbo, 15in and 16in magnesium wheels, suspension with combined spring/shock-absorber units and no anti-roll bar, and a competition wiring loom. The interior is virtually complete, with a multi-point aluminium roll cage and a location for the spare wheel on the engine cover; the dashboard is also complete, including the turbo boost gauge, but lacks the trip computer for the co-driver. It is equipped with a hydraulic handbrake and a brake balance control. The boot in the front is empty, except for the steering and the ‘works’ cut-out switch already used on the berlinettes in the 1973 WRC! Four ‘works’ brake callipers are supplied with the car.
After a meticulous examination of this Maxi, and comparing it to the other Maxis in Renault’s collection, we can draw the following conclusions:
The bodyshell is not that of a Maxi, but a Tour de Corse modified to Maxi-spec:
- First, it has had a turbocharger on the right next to the shock absorber turret, like a TdC, as marks from overheating indicate, whereas the turbocharger on the Maxi was not installed there;
- Secondly, the internal firewall has three openings let into it, whereas the Maxi only had two, as the turbocharger was relocated behind the co-driver;
- Thirdly, the steering is from an R5 Turbo TdC, and not a Maxi, and the traces of the stiffeners on the anti-roll bar are those of the TdC models and not the Maxi;
- Fourthly, the aluminium roll cage is not a Matter part, but a Ruby model specific to the TdC, all the Maxis having been equipped with Matter roll cages.
The rear strut brace (which is missing) was not that fitted to the Maxi, but rather the first TdC models, as can be seen from its mountings.
On the other hand, several items are similar to a Maxi:
The car has been fitted in the past with a complete Maxi engine, and the water injection tank on the left at the rear is still present, as is the exhaust outlet tube ahead of the right rear wheel, showing that a Maxi turbocharger was installed there.
The mounting plate for the large air filter, originally from a Renault truck, is still in place on the rear valance. It may also be noted that two oil coolers are still fitted in the left and right wings.
The car has a fuel filler on the left wing, with a small Lebozec aviation-type cap.
At present, it has the conventional windscreen wiper set-up from the R5 Turbo, which is also found on some Maxis, but the holes (now plugged) show that the Marchal wipers specific to the Maxi were fitted there.
As far as the rear suspension is concerned, it is a Maxi assembly with a specific attachment for the lower wishbones to the side members, as François Bernard has confirmed..
The front suspension is very interesting: the machine-welded hub carriers are very similar to those of a Maxi, but nonetheless different. They are not, of course, those fitted to the Tour de Corse, as these were made from cast metal.
The front wheel arches are made from polyester and are of the Maxi type.
The front strut brace is identical to those fitted to the Maxi, whereas the TdC had two smaller-diameter braces; in addition, the trapezoidal box section between the two sides of the bodyshell behind the axle, specific to the Maxi, is present.
The conduits for the UV joints (which are missing) at the rear of the chassis have been treated in the same way as on the Maxi, with a small section cut out to increase the clearance for them, and you can see the small tubular tie-rod between the side member and the shock absorber turret from the Maxi, which differs from the strengthening piece fitted to the TdC model.
Naturally, the roof and doors are made from aluminium, and there are two brake master cylinders. All the bodywork parts are those of a real Maxi, including the very specific rear bonnet fastenings.
It should be noted that there is no roof vent, as found on some Maxis.
At this stage in our research, it seems highly likely that this Turbo was in fact a development prototype for the Maxi 5 Turbo. This view is supported by the very precise recollections of the chassis engineer François Bernard regarding the car’s development. During 1983, it was decided to develop a four-wheel drive R5 Turbo, to replace the Tour de Corse. This was intended to adopt several technologies for its engine from the F1 cars, and the project was named ‘NG’ (for new generation). The engineering choices made included installing a DPV anti-lag device, water injection and a Kugelfischer pump. Given the cost of homologating a 4WD version, however, Renault's management turned to a 2WD model, which would be the fastest ever built. And therein lies the explanation for these surprising front stub axles, the centre of which had been designed to accommodate the UV joints for the front axle of the 4WD car!
In the summer of 1983, a prototype engine for the future Maxi was installed in a white Tour de Corse car. The initial tests were carried out with Jean Ragnotti at Malaucène in the Vaucluse in November 1983, and then at Le Luc in Provence. The engine was still a 1397cc unit. The prototype had a Ruby roll cage rather than a Matter one, and it had undergone the mechanical changes specified by the engine designer Philippe Coblence as well as the chassis engineer. Very quickly, this TdC/Maxi became known as the B Zero, but it kept its white livery. In addition, François Bernard confirmed that the steering was from a Tour de Corse and not a Maxi; the yellow and black prototype would be the first to have the very special steering set-up, resembling that fitted to a single-seater. When the yellow and black car appeared in autumn 1984, the B0 prototype, which had gradually been fitted with the body components characteristic of the Maxi during its career, was still used occasionally, before becoming dormant and, most likely, being stored in the third hangar at Renault Sport in Antony. In 1990 therefore, it is this prototype which is believed to have been passed on to Renault Heritage as a display model, and it was at this point that it was repainted: originally white, it took on the blue and red ‘Philips’ colours, like a copy of the Maxi C2 which won the Tour de Corse in 1985, with no attempt made, however, to mask the running gear or front boot!
It therefore appears virtually certain that the car presented here is the B0 prototype used from 1983-1984 by Jean Ragnotti to set up the definitive version of the Maxi 5 Turbo. Starting from a Tour de Corse bodyshell that had already had a previous life, the Renault Sport team applied all the specific chassis and engine features from the legendary Maxi to this car, with the exception of the steering. With its Philips livery, this prototype – which might be termed ‘ex-Ragnotti’, since it was set up by the famous and hugely popular French rally driver – is a crucial link in the history of the R5 Turbo, as it represents the passing of the baton from the TdC (20 cars built) to the Maxi (10 cars). With its numerous very rare components, it deserves to find a complete engine and to breathe in once again the heady aroma of the asphalt!
Teaser ad for the Dynacorn Mustang Shell suspended at the Ford booth at the 07 SEMA show in Las Vegas.
Another recent eBay purchase, by chance just after I'd got the R32 saloon.
I do have another version of this kit, see below, but that's a pre-facelift, modified example (despite the Revell packaging it is the basically the same as this Fujimi kit).
Quite basic underneath but the bodyshell proportions and detailing look OK (better than Fujimi's version of the earlier R30, which has a terrible roofline).
Porsche (996) GT3 (1997-05) Engine 3600cc H6 335bhp
Registration Number J 1 CKG (Cherished number originally allocated from Cardiff)
PORSCHE SET
www.flickr.com/photos/45676495@N05/sets/72157623690528015...
The Porsche 996 was introduced in 1997 for the 1998 model year, replacing the Porsche 993, designed by Pinky Lai under chief designer Harm Lagaay, with an all new body and interior The 996 had little in common with its predecessor, with the first all new chassis platform since the original 911 and a new water-cooled engine. Technically, it was a major change, a complete breakthrough from the original car other than the overall layout.
The 996 was initially available in a coupé or a cabriolet (Convertible) bodystyle with rear-wheel drive, and later with four-wheel drive, utilising a 3.4 litre flat-6 engine generating a maximum power output of 296bhp. Initially
The 996 platform was used as the basis for two lightweight GT variants called GT2 and GT3. The GT3 was based on the standard 996 Carrera, but was stripped for weight saving. The GT3 used the bodyshell of the four-wheel-drive Carrera 4, which incorporated additional front-end stiffening, it also featured stiffer suspension and upgraded brakes. Introduced in 1999 it featured a naturally aspirated 3.6-litre flat-six engine generating a maximum power output 355bhp
996.2
The early 996 had the same front end as the entry-level Boxster, but customer resistance led to a redesigned headlight in 2002 unique to the 996 thus separating the appearance of the two models engine capacity was also increased to 3.6 litres increasing the output of the naturally aspirated gars by 15bhp and the Targa model was added to the model range
The 996 Carrera was superceeded by the 997 for the 2005 model year, though the 996 versions of the Turbo S, GT2 and GT3 models continued into 2005 and 2006 The Mk.II GT3 variant was based on the second generation of the 996, and featured updated aerodynamics, and a more powerful version of the 3.6 L engine from the MK.I, now rated at 375bhp
Diolch am olygfa anhygoel, 62,417,330 oblogaeth y Lloegr honno dros y Mynyddoedd
Thanks for a stonking 62,417,330 views
Shot 30-07-2017 exiting the 2017 Silverstone Classic REF 129-590
The only Jaguar XJ220 in the world that lived up to its name, being fitted with a stunning V12 engine and making it the world's fastest production car. However, costs, setbacks, a recession or two and a myriad of other problems resulted in the dream becoming a nightmare, and the match of styling and power made in heaven being turned quickly into a BDSM session in hell!
The proposal for the Jaguar XJ220 seemed to come right out of nowhere. In 1986 the company was sold to Ford after ownership under British Leyland, and was producing a selection of strange luxury motors including the XJS and the XJ, which, although were very good and highly luxury machines, weren't exactly setting the world on fire.
But racing had been put forward to the company before, and racing team owner Tom Walkinshaw encouraged Jaguar to put one of their XJS's into the 1981 European Touring Car Championship, in which they succeeded in winning the competition in 1984. Jaguar had started to provide factory support to racing team Group 44 Racing, who were using the Jaguar-engined XJR-5 in the IMSA GT Championship, supplying V12 engines from 1983 onwards and supporting a Le Mans entry in 1984. Tom Walkinshaw and Jaguar agreed to entering the FIA Group C World Sportscar Championship and developed the XJR-6, which was powered by the Jaguar V12 engine; the car was launched during the 1985 season.
TWR took over the IMSA GT Championship operation in 1988 and one model – Jaguar XJR-9 – was launched to compete in both series. The XJR-9, which retained the Jaguar V12 engine, went on to win the 1988 24 Hours of Le Mans and World Sportscar Championship in the same year. The poor fuel consumption of the Jaguar V12 combined with new rules restricting refuelling during races forced the replacement of the V12 engine in the XJR-9s successors, the XJR-10 and XJR-11. The normally-aspirated Austin Rover V64V engine, designed for the MG Metro 6R4 had recently been made redundant thanks to the Group B rally ban in 1987, and the design rights were for sale. The compact, lightweight and fuel efficient nature of the small-displacement, turbocharged engine was investigated by TWR, who considered it an ideal basis for a new engine to power the XJR-10 and purchased the design rights from Austin Rover Group.
Jaguar and their Director of Engineering, Jim Randle, felt these racing cars were too far removed from the product available to the general public, especially with the rule changes that mandated the replacement of the Jaguar V12 engine in the forthcoming XJR-10 and XJR-11 racing cars. Therefore a project was initiated to design and build a car capable of winning Le Mans "in house", just as the Jaguar C-Type and D-Type had done. The groundwork for the project was undertaken by Randle over Christmas 1987, when he produced a 1:4 scale cardboard model of a potential Group B racing car.
The cardboard model was taken into the Jaguar styling studio and two mock-ups were produced. One was said to be reminiscent of the Porsche 956, the other took elements of the then current Jaguar XJ41 project and Malcolm Sayer's work on the stillborn Jaguar XJ13 racing car.
The project still had no official support, leaving Randle no option but to put together a team of volunteers to work evenings and weekends in their own time. The team came to be known as "The Saturday Club", and consisted of twelve volunteers. To justify the resources consumed by the project, the XJ220 needed to provide meaningful data to the engineers on handling, aerodynamics, particularly at high speeds, and aluminium structures. These requirements, together with FIA racing regulations and various government regulations governing car design and safety influenced the overall design and engineering direction of the car.
The FIA Group B regulations steered the concept towards a mid-engine, four-wheel drive layout, with a Jaguar V12 engine as the power source. The concept car was designed and built at very little cost to Jaguar, as Randle called in favours from component suppliers and engineering companies he and Jaguar had worked with in the past. In return he offered public recognition for their assistance and dangled the possibility of future contracts from Jaguar.
The name XJ220 was chosen as a continuation of the naming of the Jaguar XK120, which referred to the top speed of the model in miles per hour. The concept car had a targeted top speed of 220 mph so became the XJ220. The XK120, like the XJ220, was an aluminium-bodied sports car, and when launched was the fastest production car in the world.
Jaguar and engine designer Walter Hassan had previously created a 48-valve variant of their V12 engine specifically for motorsport use. It featured a double overhead camshaft layout with four valves per cylinder, compared with the single overhead camshaft and two valves per cylinder of the production engine, which was used in the Jaguar XJ and Jaguar XJS models at the time.
TWR and Cosworth had manufactured a number of these racing V12 engines during the 1980s and they had been raced competitively, with a 7-litre version of this engine featuring in the Le Mans winning Silk Cut Jaguar XJR-9. Five of these engines still existed, all of which were fitted with dry sump lubrication. These engines were chosen and considered to be especially useful as the dry sump would lower the vehicle's centre of gravity. The displacement of the V12 was set at 6.2L for the XJ220.
Jaguar had little experience with four-wheel drive systems at the time, having previously only produced rear-wheel drive cars. Randle approached Tony Rolt's company, FF Developments to design the transmission and four-wheel drive system for the XJ220, with Rolt's son Stuart running the project. Tony Rolt was the Technical Director of Ferguson Research, where he was heavily involved in the design of the four-wheel drive system used in the Jensen FF, the first sports car to be fitted with such a transmission. Tony Rolt also had a long involvement with Jaguar, winning the 1953 24 Hours of Le Mans with the factory works team driving the Jaguar C-Type.
The mid-engine complicated the design of the four-wheel drive system, and an innovative solution was needed to get drive from the rear of the engine to the front wheels. The chosen design took the front-wheel drive from the central differential on the rear transaxle and sent it through the V in the centre of the engine using a quill drive, before joining an inverted differential. The clutch was a twin-plate unit designed by AP Racing.
The design brief for the exterior restricted the use of aerodynamic aids, and aimed for a stylish yet functional body similar to the Jaguar D-Type. Drag and lift were limited at the envisioned ground clearance for road use, but the design allowed for additional downforce when the car was set up for racing; the body produced around 3,000 lb of downforce at 200 mph. The design was also intended to have a variable rear wing that folded into the bodywork at lower speeds. Aerodynamic work was undertaken at the Motor Industry Research Association wind tunnel using a 1:4 scale model, as the project was unable to budget for a full-scale mock-up.
The bodywork for the concept car displayed in 1988 was hand built from aluminium by Park Sheet Metal, a specialist automotive engineering company that manufactures concept cars and low-volume, niche models for various manufacturers, including Bentley. QCR Coatings undertook final painting of the bodyshell in silver. The concept also featured electrically operated scissor doors and a transparent engine cover to show off the V12 engine.
The concept car had a Connolly Leather-trimmed interior produced by Callow & Maddox, and was fitted with front and rear heated windscreens, electric windows, air conditioning, heated electrically adjustable seats with an Alpine Electronics CD player. The dashboard was supplied by Veglia.
The concept car was completed in the early hours of 18 October 1988, the day it was due to be unveiled at the British International Motor Show, being held at the National Exhibition Centre, Birmingham.
Jaguar's marketing department had allocated space on their stand at the motor show for the XJ220, but had not seen the vehicle until its arrival. Jaguar chairman John Egan and Roger Putnam, who was in charge of Jaguar's racing activities, were shown the vehicle the week before the motor show and signed off on the concept, allowing its unveiling. The car received an overwhelmingly positive reception by public and press, and a number of wealthy Jaguar enthusiasts handed over blank cheques to secure a purchase option should the XJ220 concept go into production. Ferrari displayed their F40 model at the same event; an estimated 90,000 additional visitors came to see the Jaguar and Ferrari cars.
The XJ220 was not initially intended to be a production car, but, following the reception of the concept and financial interest from serious buyers, a feasibility study was carried out by teams from TWR and Jaguar. Its conclusion was that such a car would be technically feasible, and that it would be financially viable. The announcement of a limited production run of 220 to 350 cars came on 20 December 1989. The list price on 1 January 1990 was £290,000 exclusive of value added tax, options and delivery charges, but by 1992 that had increased considerably owing to indexation of contracts. The offer was four times oversubscribed, and deposits of £50,000 exclusive of Value Added Tax (VAT) were taken from around 1400 customers; first deliveries were planned for mid-1992.
What Jaguar didn't reckon on was that the 1990's were going to get off to a very bad start, with a good old fashioned recession to usher in the new decade. This, combined with the various downgrades that would have to follow to make the car road legal, would result in the Jaguar XJ220 giving the company and the customers headaches in more ways than one.
In 1991, the company constructed a new £4 million factory at Wykham Mill, Bloxham, for the single purpose of building the XJ220, the plant being opened by the late Princess Diana. But, in order to comply with a variety of road legislation, engineering requirements resulted in significant changes to the specification of the XJ220, most notably replacement of the Jaguar V12 engine by a turbocharged V6 engine.This downgraded engine made that desirable rocket car more run-of-the-mill, and many pulled back their deposits.
At the same time the economy collapsed and when the first production cars left the factory in 1992, many of the original potential buyers who had put down their hefty deposits found that they couldn't afford it, and wanted their money back. Many of them cited the fact that the four wheel drive, V12 had been downgraded to a two wheel drive, V6, and thus they weren't getting what they paid for. The result was that Jaguar went so far as to take their customers to court, and forced them to buy a car they no longer wanted, the problem being exacerbated by the fact that in 1993, the McLaren F1 took the title of world's fastest production car, was available with the V12 and all things it promised, and was much smaller and more manageable than the bulky XJ220.
A total of just 275 cars were produced by the time production ended, 22 of their LHD models never being sold, each with a retail price of £470,000 in 1992, probably one of the biggest automotive flops in motoring history, right up there with the DeLorean and the Edsel. But this would later be advantageous for many, as this pedigree 'worlds-fastest-car' machine would go in later years for a much lower price. £150,000 mind you, but it's a lot better buying the one's that weren't sold at this reduced price, than at the initial asking price back in 1992. Therefore buyers were able to procure themselves a first-hand XJ220, for half the price, a representative saving of nearly £250,000.
Today the XJ220's are rare beasts indeed, rarely coming out to play due largely to their expensive upkeep, heavy fuel consumption and sheer size. But keep your eyes open in some of the more affluent neighbourhoods, be they Dubai, Beverley Hills, or the South of France, and chances are you'll be able to find one.
An interesting Ford Model A hot rod, at least some parts of it are Ford Model A LOL, definitely a good looking build... The specs of the bodyshell - based on a 1930 Model A, 1932 Model A rails, on the front end a 1940 Chevrolet hood and 1941 Terraplane grille...
A trip to the huge River City Classics car show, at least 1250 cars were registered! Always the biggest show of the year in southern Alberta...