The Manta A was released in September 1970, two months ahead of the then new Opel Ascona on which it was based. A competitor to the Ford Capri, it was a two-door "three-box" coupé, and featured distinctive round tail lights, quite similar to those on the Opel GT and which in fact were used on the GT in 1973, its final model year. In the UK market, the first Manta was sold only as an Opel: there was no Vauxhall-branded Manta (or Ascona) until after the launch, in 1975, of the Manta B1 and Ascona B.

The second car to use the Manta name was launched in August 1975. This two-door "three-box" car was mechanically based directly on the then newly redesigned Opel Ascona, but the overall design was influenced by the 1975 Chevrolet Monza. The Manta had more "sporty" styling, including a droop-snoot nose not seen on the Ascona, although it was standard, on the UK version of the Ascona, the Vauxhall Cavalier. There was still no "Vauxhall Manta", with the car remaining an Opel in the UK. However, a Vauxhall Cavalier was available with the same coupé bodyshell.

In 1977, a three-door hatchback version appeared to complement the existing two-door booted car. This shape was also not unique, being available on the Vauxhall Cavalier Sports Hatch variant.

Both Manta versions received a facelift in 1982, which included a plastic front spoiler, sideskirts for the GT/E and GSi models, a small wing at the rear and quadruple air intakes on the grille.

(Wikipedia)

- - -

Der Opel Manta ist ein fünfsitziger Pkw der Adam Opel AG, der als Manta A im September 1970 auf den Markt kam. Der Wagen ist die technisch identische Coupé-Version der zwei Monate später vorgestellten Opel Ascona A-Limousine. Das Coupé mit wassergekühltem Vierzylinder-Frontmotor und Hinterradantrieb wurde als Konkurrent des bereits seit 1968 erfolgreichen Ford Capri auf den Markt gebracht.

Der Manta A wurde zunächst mit drei verschiedenen CIH-Motoren angeboten, die auch in der größeren Rekord C-Limousine Verwendung fanden: zwei 1,6-l-Varianten mit 68 PS bzw. 80 PS sowie der 1,9-l-Version mit 90 PS.

Als im August 1988 der letzte Manta B vom Band lief, war seine Technik mit der aus dem Kadett B von 1967 stammenden Starrachse (Zentralgelenkachse) und den seit 1965 produzierten CIH-Motoren überholt, obwohl die letzten Modelle schon mit ungeregeltem Katalysator und 5-Gang-Getriebe ausgerüstet wurden. Für Opel war der Manta ein Erfolg: Von beiden Modellreihen wurden zusammen 1.056.436 Wagen gebaut.

(Wikipedia)

The Jaguar XJ (XJ40) is a luxury sedan manufactured by Jaguar Cars between 1986 and 1994. Officially unveiled on 8 October 1986 it was an all-new redesign of the XJ to replace the Series III, although the two model ranges were sold concurrently until the Series III was discontinued in 1992. The XJ40 used the Jaguar independent rear suspension arrangement, and featured a number of technological enhancements (such as electronic instrumentation)

Development:

Throughout the 1970s Jaguar had been developing "Project XJ40", which was an all-new model intended to replace the original XJ6. Scale models were being built as early as 1972. Due to the 1973 oil crisis and problems at parent company British Leyland, the car was continually delayed. Proposals from both Jaguar's in-house designers and Pininfarina were received. Eventually, it was decided an internal design would be carried through to production and, in February 1981, the British Leyland board approved £80 million to produce the new car.

Jaguar historians claim that the XJ40 was the last car which company founder Sir William Lyons had contributed to during its protracted development phase. The previous generation XJ had been the final Jaguar to be developed wholly under Lyons' leadership - although he continued to take an active consultative role within Jaguar design, long after had retired from the day to day management of the firm following its merger in 1966 with the British Motor Corporation.

During development, the XJ40 pioneered significant improvements to the way Jaguar designed, built, and assembled cars. Among these improvements was a 25 per cent reduction in the number of bodywork panels required per car (e.g. three pressings needed for a Series 3 door compared with one for a XJ40 door), resulting in not only a more efficient assembly process, but also a weight saving and a stiffer structure. Greater attention to panel gaps improved the drag factor (reduced from 0.849 Cd to 0.762 Cd), while also improving the fuel economy and lowering wind noise inside the cabin.

Mechanicals:

AJ6 4.0 L engine (in a 1990 Daimler)

Initially, only two engines were offered across the XJ40 models: a 2.9 L and a 3.6 L version of the AJ6 inline-six. In 1990, these were changed to 3.2 L and 4.0 L versions. In 1993, the XJ12 and Daimler Double Six (both equipped with the Jaguar V12 engine) were added to the available models.

During the development of the XJ40, British Leyland had considered providing the Rover V8 engine for the car, which would have eliminated the need for future Jaguar engine production. The XJ40 bodyshell was allegedly engineered to prevent fitting V-configuration engines such as the Rover V8; this delayed the introduction of the V12-powered XJ12 until 1993.

The automatic gearbox used in the 2.9 L, 3.2 L and 3.6 L six-cylinder cars was the four-speed ZF 4HP22. On the 4.0 L, the four-speed ZF 4HP24 was used. A stronger automatic gearbox was required for the V12-equipped cars, and the four-speed GM 4L80-E was selected. The manual gearbox fitted to early cars was the five-speed Getrag 265, while later cars received the Getrag 290.

The automatic transmission selector was redesigned to allow the manual selection of forward gears without accidentally selecting neutral or reverse. This new feature was dubbed the "J-Gate" and has carried over to more recent Jaguar models.

Exterior:

The curvaceous lines of the outgoing Series XJ were replaced by the more angular, geometric shape of the XJ40. The nose of the car would accommodate either matched pairs of round headlights, or rectangular single units; the latter were fitted to the higher-specification Sovereign and Daimler trim levels, and also to all cars for the US market.

The bumper is a visually distinct black-rubber-covered bar that runs the full width of the car and incorporates the sidelights and indicator lights. The bonnet is hinged at the front. Window frames are either chromed or black, depending on model. Rain gutters, door mirrors, and door handles are also finished in chrome. All XJ40s have a chrome surround for the windscreen and a single windscreen wiper.

Early low-specification cars were fitted with metric-sized steel wheels and plastic wheelcovers. From 1991, the wheels were changed to non-metric sizing.

[Text from Wikipedia]

en.wikipedia.org/wiki/Jaguar_XJ

Australia

The new 1953-59 100E Prefect / Anglia was built in the UK and also Australia and New Zealand, available as a 4 door Prefect and 2 door Anglia. Also available was an Estate, basic was the Escort and upmarket was the Squire. The Van version was badged a Thames. The 100E still ran the old 1172 sidevalve, although with some modifications, now with 36hp.

The Mk II 100E of 1957 got a mesh grille (on the Anglia), fluted bumpers were replaced by rounded, a larger rear window, larger tail lights, a V bonnet motif and restyled headlight bezels.

The 300E Thames Van was introduced in July 1954, based on the 100E saloon range. It shared its bodyshell with the Escort and Squire estates. The doors were shorter than the saloons. Initially produced only as a single model with 5 long cwt carrying capacity, the range was later expanded with the Standard and Deluxe 7 long cwt variants. 300E production ended in 1961, replaced by the Anglia 105E based Thames 307E

Engine; 1172cc sidevalve 4 cyl

Humber Hawk (1957-67) Engine 2267cc S6 OHV Production 15539 all series, (6813 series 1A)

Registration Number VGW 817

HUMBER SET

www.flickr.com/photos/45676495@N05/sets/72157623665287863...

The 1957 Hawk had a completely new body with unitary construction which it would go on to share with the 1958 Humber Super Snipe. This was the biggest bodyshell for a saloon/estate car built in Great Britain at the time. The 2267 cc engine was carried over, though with modifications to the distributor mounting, and other details; and an automatic transmission, the Borg Warner D.G. model, was now available. The body was styled in Rootes' own studios and featured more glass than previous models, with wrap-around front windscreen, which gave it a considerable resemblance to a 1955 Chevrolet.

There were several revisions during the car's life, each resulting in a new Series number.

The 1959 Series 1A had changed gear ratios and minor trim changes.

The Series II launched in October 1960 had disc front brakes, servo-assisted. The automatic option was no longer available on the home market.

The Series III of September 1962 had a larger fuel tank and bigger rear window. The export model automatic option was also dropped.

More significant changes came with the October 1964 Series IV. The roof was made flatter, the rear window smaller and an extra side window fitted behind the rear doors. Synchromesh was fitted to bottom gear. An anti-roll bar was fitted at the rear.

The final Series IVA of 1965 saw the automatic option re-introduced, this time being the Borg Warner Model 35.

Shot at Tatton Park, Manchester, Classic Car Show 18:08:2012 REF 88-154. .

The Manta A was released in September 1970, two months ahead of the then new Opel Ascona on which it was based. A competitor to the Ford Capri, it was a two-door "three-box" coupé, and featured distinctive round tail lights, quite similar to those on the Opel GT and which in fact were used on the GT in 1973, its final model year. In the UK market, the first Manta was sold only as an Opel: there was no Vauxhall-branded Manta (or Ascona) until after the launch, in 1975, of the Manta B1 and Ascona B.

The second car to use the Manta name was launched in August 1975. This two-door "three-box" car was mechanically based directly on the then newly redesigned Opel Ascona, but the overall design was influenced by the 1975 Chevrolet Monza. The Manta had more "sporty" styling, including a droop-snoot nose not seen on the Ascona, although it was standard, on the UK version of the Ascona, the Vauxhall Cavalier. There was still no "Vauxhall Manta", with the car remaining an Opel in the UK. However, a Vauxhall Cavalier was available with the same coupé bodyshell.

In 1977, a three-door hatchback version appeared to complement the existing two-door booted car. This shape was also not unique, being available on the Vauxhall Cavalier Sports Hatch variant.

Both Manta versions received a facelift in 1982, which included a plastic front spoiler, sideskirts for the GT/E and GSi models, a small wing at the rear and quadruple air intakes on the grille.

(Wikipedia)

- - -

Der Opel Manta ist ein fünfsitziger Pkw der Adam Opel AG, der als Manta A im September 1970 auf den Markt kam. Der Wagen ist die technisch identische Coupé-Version der zwei Monate später vorgestellten Opel Ascona A-Limousine. Das Coupé mit wassergekühltem Vierzylinder-Frontmotor und Hinterradantrieb wurde als Konkurrent des bereits seit 1968 erfolgreichen Ford Capri auf den Markt gebracht.

Der Manta A wurde zunächst mit drei verschiedenen CIH-Motoren angeboten, die auch in der größeren Rekord C-Limousine Verwendung fanden: zwei 1,6-l-Varianten mit 68 PS bzw. 80 PS sowie der 1,9-l-Version mit 90 PS.

Als im August 1988 der letzte Manta B vom Band lief, war seine Technik mit der aus dem Kadett B von 1967 stammenden Starrachse (Zentralgelenkachse) und den seit 1965 produzierten CIH-Motoren überholt, obwohl die letzten Modelle schon mit ungeregeltem Katalysator und 5-Gang-Getriebe ausgerüstet wurden. Für Opel war der Manta ein Erfolg: Von beiden Modellreihen wurden zusammen 1.056.436 Wagen gebaut.

(Wikipedia)

Bonhams : The Autumn Sale 2020

Estimated : € 120.000 - 180.000

Sold for € 143.750

Autoworld

www.autoworld.be

Brussels - Belgium

September 2020

"The Mercedes 220 SE coupé is a very fine engineering achievement. Not only does it provide fast and economical transports for four and their luggage, but outstanding roadholding and riding qualities make this a car which is a pleasure to drive hard, and one in which it is safe and comfortable to do so. Furthermore, it has superb brakes and a high standard of mechanical refinement." – Autocar.

Mercedes-Benz debuted four new models at the Frankfurt Show in 1959 - the 220 SEb among them - all of which shared the same basic unitary-construction bodyshell and all-round independent suspension. This new 220 family moved Mercedes-Benz's styling into the modern era; longer than their predecessors, these elegant newcomers featured a wider radiator shell, wrap-around windscreen, enlarged rear window and vertically stacked twin headlamps. The new 220 SEb retained the fuel-injected, single-overhead-camshaft engine of the previous 220 SE, though maximum power of the 2,195cc six was increased by five horsepower to 120bhp (DIN). Top speed was now 172km/h with 100km/h attainable in under 14 seconds.

Coupé and Cabriolet models appeared in 1960 and 1961 respectively, minus the already dated-looking tail fins of the saloon. More modern in style, the luxurious 220 SEb Coupé and Cabriolet were better appointed too, being equipped as standard with a rev counter, leather upholstery, and four-speed automatic transmission with floor-mounted gearchange lever. Girling servo-assisted front disc brakes were fitted from the start of production, a benefit not enjoyed by the saloon until 1962. By the time production ceased in October 1965, fewer than 17,000 220 SEb Coupé and Cabriolet models had been manufactured, of which only 2,729 were Cabriolets, and today these stylish and luxuriously equipped Grand Tourers are highly prized.

This superbly restored Mercedes-Benz 220 SEb Cabriolet was delivered new in Germany. A matching-numbers example equipped with the desirable manual 'floor shift' gearbox, the Mercedes was sold new to a member of the United States' armed forces, who, it is presumed, took the car to the USA.

The present owner discovered this 220 SEb Cabriolet while searching for rare spare parts for his Mercedes-Benz 300 Adenauer Cabriolet D. Visiting the classic car fair in Stuttgart in March 2015, he became enchanted by this Mercedes 220 SEb cabriolet, which he considered to be the most perfectly restored vehicle on show. Delivered new in Germany, retaining matching numbers, and restored to concours standard, it met all of the perfectionist owner's exacting criteria and duly became part of his private collection on 1st March 2016. Since then, some 1,000 kilometres have been covered, including a recent trip to the Coppa Classic Concours in Belgium where it won the award for 'Best Restored Car'. Finished in the attractive colour combination of Burgundy with tan interior, and guaranteed to turn heads wherever it goes, this quite exceptional soft-top 4-seat Mercedes is well-documented and offered with all its original books; M-B Datakart; a selection of restoration photographs; and Belgian registration documents.

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.

Green Lane allocated Atlantean 1501 tries to disguise itself as a Laird Street bus with its green lower front, replacement panel still in bare aluminium and a complete lack of destinations.

It is being followed by a Suzuki Carry, a van come minibus whose bodyshell was also built in the UK as the Bedford Rascal.

More commonly seen with an orange bodyshell and Autobacs decals. I've had this Coca-Cola version for a few years now.

The 1965-1976 Lancia Fulvia Coupe and Zagato was the the last Lancia wholly designed by the old-line Italian automaker before it was acquired by Fiat, which then took increasing responsibility for engineering and styling of subsequent Lancias.

New from end to end, the 1965-1976 Lancia Fulvia Coupe and Zagato had front-wheel drive and a narrow-angle overhead cam V-4 engine inclined at 45 degrees in the nose. Besides a dull-looking four-door sedan (not considered here), the Fulvia was offered as a deliciously cute 2+2 notchback coupe and as a longer two-seat Sports coupe styled by Zagato in its typical fashion. The latter featured extensive use of aluminum body panels, as did the special high-performance HF coupe.

Engine displacement was increased from 1.2 to 1.3 liters in 1967, the last year these cars were legally imported into the U.S. An extensively revised 1.6-liter version of the V-4 was optional for 1969 and later HFs and the last 1971 Zagatos. All models featured four-wheel disc brakes and splendid front-drive handling. The HF earned its stripes in European rallying, and hung around after the Fiat-based Beta series arrived to replace other Fulvia models in the early '70s.

Pluses of the 1965-1976 Lancia Fulvia Coupe & Zagato:

Neat styling

Handling

Performance (110 mph for 1.6)

Brakes

Minuses of the 1965-1976 Lancia Fulvia Coupe & Zagato:

Meager parts supplies

Bodies rust-prone

Most slower than they look

Crowded cabin

Production of the 1965-1976 Lancia Fulvia Coupe & Zagato:

1.2-Litre cpe: 20,436

1.2-Litre HF cpe: 490

1.3-Litre Zagato: 202

1.3-Litre cpe: 113,599

1.3-Litre HF cpe: 2,239

1.3-Litre Zagato: 6,100

1.6-Litre HF cpe: 3,690

1.6-Litre Zagato: 800

Specifications of the 1965-1976 Lancia Fulvia Coupe & Zagato:

Wheelbase, inches: 91.7

Length, inches: 156.0/161.0 (cpe/Zagato)

Weight, pounds: 1,975-2,110/1,820/2,060 (cpe/HF/Zagato)

Price, new: $3,520/$4,520 (1.3 cpe/1.3 Zagato) in the U.S. in 1967

Engines for the 1965-1976 Lancia Fulvia Coupe & Zagato: (Type-Size-Horsepower-Years)

dohc V-41,216 cc (74 cid) 80 1965-1967

dohc V-41,298 cc (79 cid) 901967-1976

dohc V-41,584 cc (97 cid)115 1969-1976

The first serie Lancia Fulvia Sport is a 2-seat Zagato rebody of Coupe with aluminium bodyshell and 1216 cc engine; Sport 1.3 - An updated Sport with 1298 cc (818.302) engine producing 87 hp (65 kW) at 6000 rpm. Early versions still have all aluminium bodyshells (700 were produced with both 1216 cc & 1298 cc engines), but later ones were fitted with steel bodyshells with an aluminium bonnet and doors; Sport 1.3s - An updated Sport 1.3 with 1298 cc (818.303) engine producing 92 hp (69 kW) at 6000 rpm. These Sports were normally fitted with brake servos; Sport 1.3s 2nd series - An updated Sport 1.3 with 5 speed gearbox. Very early versions of these Series 2 cars were fitted with Series 1 'type' bodyshells with a separate spare wheel-hatch and smaller rear lights and aluminium bonnet and doors. Later versions have all steel bodyshells and no spare wheel hatch, and larger rear lights; Sport 1600 - An updated Sport with 1584 cc engine producing 115 hp (86 kW). This version had electric front windows and was the fastest production Fulvia produced, with a top speed of 118 mph (190 km/h). The Fulvia Sport was updated in mechanics and styling in 1970.

Or Lexus GS300/430 if you prefer. I got an LS400/Celsior kit in the same taxi series recently.

Bodyshell looks to be the same as in the Junction Produce VIP version I picked up last year.

The Fiat Tipo (Type 160) is a compact car, designed by the I.DE.A Institute design house, and produced by the Italian manufacturer Fiat between 1988 and 1995.

The Tipo was initially available only as a five-door hatchback. The car was made entirely out of galvanized body panels to avoid rust, and was built on a completely new Fiat platform, which was later also used in Alfa Romeo and Lancia models.

It also stood out because of its boxy styling that gave it innovative levels of packaging, rear passenger room being greater than that in a rear wheel drive Ford Sierra, but in a car that was of a similar size to the smaller Ford Escort. This type of design was comparable to the smaller Fiat Uno, which was launched five years before the Tipo.

The top of the range was the 2.0 Sedicivalvole (16 valves).

The Sedicivalvole gained its engine from the Lancia Thema, and with a much smaller and lighter bodyshell to house it, this power unit brought superb performance and handling, and a top speed of around 130 mph (210 km/h), which made it faster than the Volkswagen Golf GTI of that era.

In early 1963 Giovanni Michelotti was commissioned by Standard-Triumph to design a GT version of their recently introduced Spitfire 4 (also designed by Michelotti). An unmodified Spitfire 4 was delivered to Michelotti's design studios in Italy and late in 1963 the prototype Spitfire GT4 was returned to England for evaluation. The styling of the vehicle was a success but the extra weight of the GT bodyshell resulted in extremely poor performance from the Spitfire's 1,147 cc (70 cu in) Standard SC engine, and plans for producing the Spitfire GT4 were shelved.

Michelotti's fastback design for the Spitfire GT4 prototype was adopted by the Triumph racing programme for the 1964 season, as it was deemed to provide an aerodynamic benefit over the standard Spitfire body shape. Fibreglass copies of the Spitfire GT4's fastback were grafted on to the race-modified Spitfires destined for competition. The Spitfire racing programme was successful, and in 1965 resulted in 13th overall and a 1st in class at the prestigious 24 Hours of Le Mans (beating their main rivals, the MG Midgets).

To overcome the lack of performance inherent in the heavier body style the Spitfire's 4-cylinder engine was replaced with the more powerful 2-litre (1998 cc) Triumph inline 6 originally derived from the SC and then in use in the Triumph Vitesse (which shared a similar chassis with the Spitfire and Triumph Herald). The car was further developed and refined and eventually launched as the Triumph GT6 (dropping the "Spitfire" prefix) to emphasise its GT styling and its 6-cylinder engine.

The new car was introduced in 1966 and called the Triumph GT6. The new body was a sleek fastback design with an opening rear hatch, earning the GT6 the nickname of poor man's E-Type. It was really a 2-seater, but a small extra rear seat could be ordered, large enough for small children. The family resemblance to the Spitfire Mk II was strong, the longer 6-cylinder engine necessitated a new bonnet top with a power bulge and the doors were provided with opening quarter light windows and squared-off glass in the top rear corner. The 6-cylinder engine was, like the Vitesse 2-litre, tuned to develop 95 bhp (71 kW) at 5000 rpm, and produced 117 lb⋅ft (159 N⋅m) of torque at 3000 rpm.

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 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.

Standard 8 (Mod) (1953-56) Engine *803cc S4 OHC Production 136317

Registration Number 922 YUD

STANDARD SET

www.flickr.com/photos/45676495@N05/sets/72157623722503183...

Introduced in 1953 the new Standard 8 and 10 were a completely new design with unit construction and an overhead-valve engine. It was offered only as a 4-door saloon. The new engine of 803 cc produced slightly less power than the outgoing larger sidevalve unit with 26 bhp but was increased in 1957 to 40bhp. The 4-speed gearbox, with synchromesh on the top three ratios, was available with optional overdrive from March 1957. Girling hydraulic drum brakes were fitted. To keep prices down, the car at launch was very basic with sliding windows, single windscreen wiper and no external boot lid. Access to the boot was by folding down the rear seat, which had the backrest divided in two. The 1954 De luxe got wind up windows and the Gold Star model of 1957 an opening boot lid. From mid-1955 all the Eights finally got wind up windows. At launch the car cost £481 including taxes on the home market

The Standard Ten of 1954 shared the bodyshell and running gear and would outlast the Eight by continuing until 1961.

The cars were sold as Standards utility models, and rivals for the Austin A30, Morris Minor.

This car has been modified with a 1200cc engine

A big thanks for 21.7 million views

Shot 20:04:2014 at Weston Park Ref 99a-424

Les Grandes Marques du Monde au Grand Palais

Bonhams

Estimated : € 40.000 - 60.000

Sold for € 32.200

Parijs - Paris

Frankrijk - France

February 2018

- Delivered new to France

- Three owners from new

- Very well maintained

- Fully documented

- 29.307 km recorded

In the mid-1980s, Ford to renew its alliance with Cosworth to create the eponymous Sierra, assembly commencing in June 1986 at the company's Genk plant in Belgium. Based on the three-door Sierra bodyshell, the RS Cosworth combined the standard 1.993 cc Pinto engine's cylinder block with a forged steel crankshaft and connecting rods, the first time the latter combination had been seen in a production Ford engine. Topping it off was a Cosworth-developed, 16-valve cylinder head fed by a Garrett AiResearch turbocharger, the latter being deemed necessary to achieve a competitive power output for racing, which in time would amount to over 500bhp! Even in standard road trim the RS Cosworth produced a staggering 204bhp. Needless to say, the standard Sierra underpinnings were comprehensively up-rated to cope.

This Sierra RS Cosworth was delivered new in France on 25th April 1988 via the official Ford dealer, Durruty in Bayonne. Its first owner, Mr Pourvahab, a businessman living in Biarritz, paid a total of FF 175.000 for the car, and took delivery on a temporary registration (the original invoice and registration certificate are on file). Six weeks later, the car was registered by its owner in Biarritz, and at the same time received the anti-theft etching required by the insurance company (certificate on file).

The first owner took great care of the car for more than 20 years, covering 28.732 km (see bill of sale on file). The next owner, Mr André Lenoir of Berre-l'Etang (Bouches-du-Rhône), registered the Sierra in February 2009 and kept it for the next seven years. The car was well stored seldom be driven (the roadworthiness report of 2015 indicates 29.217 km). Finally, in 2016, the car was added to the stable of a prominent Belgian collector. Today, the car still sports its French second-owner registration plates from the Départment Bouches-du-Rhône ('308 BTS 13').

The car's current condition is a testimony to the great care it has enjoyed all its life. The interior shows almost no signs of wear, and the original Zandvoort Blue exterior colour presents beautifully. All books and instruction manuals are present, including the very rare 'Sierra Cosworth RS' supplement. The car is described as in generally excellent condition and runs extremely well.

The Sierra RS Cosworth has always been a coveted car as confirmed by a recent article in 'Octane' magazine dated January 2018, with record numbers stolen in their early days. Today, they are much sought after by discerning collectors, especially when presented in original, unmolested condition and with excellent provenance like this stunning example, which ticks all the boxes.

Chassis n° 404/2030

Bonhams : the Zoute Sale

Estimated : € 230.000 - 260.000

Zoute Grand Prix 2018

Knokke - Zoute

België - Belgium

October 2018

Imitation is said to be the sincerest form of flattery; nevertheless it seems unlikely that BMW's engineers felt particularly gratified when the Bristol Car Company obtained the rights to their automotive designs as part of Germany's post-WW2 reparations. Thus it came about that the Bristol 400, which commenced production in 1947, was effectively a synthesis of three pre-war BMW designs, with a chassis derived from that of the 326, an engine from the 328 sports car, and an aerodynamic bodyshell similar to that of the 327 coupé. But Bristol did more than simply copy the work of its German counterparts; the application of aviation industry standards to its manufacture resulted in a car more refined and considerably better constructed than its Teutonic forbears.

With the 1953 introduction of the short-wheelbase 404 coupé, the Bristol line at last lost its resemblance to the pre-war BMW, swapping that distinctive two-piece radiator grille for an equally unmistakable, aeronautically inspired air intake. The body was still an ash-framed, aluminium-alloy panelled structure, but the bonnet was now forward-hinging and for the first time the spare wheel was accommodated in the near-side front wing. Bristol continued to use the BMW-based, 2.0-litre, six-cylinder engine with its ingeniously arranged, pushrod-operated inclined valves, and this was available in either 105bhp or 125bhp form in the 404. The gearbox remained a manual four-speed unit with first-gear freewheel. Famously dubbed the 'Businessman's Express', the 404 excelled at providing high-speed travel in comfort -the very definition of 'Gran Turismo'. The car's aircraft-industry standard of construction did not come cheap however, and only 52 examples found customers between 1953 and 1955.

Its accompanying Bristol Heritage Certificate confirms that this 404 was supplied new on 15th October 1954 to Mr Remy Mannes, the then Bristol dealer in Brussels, Belgium. The car was supplied in left-hand drive configuration for Europe with a rare km/h speedometer, green leather interior, and European dipping, all of which it retains today. The engine number quoted on the certificate is '100B/3534', whereas today a more desirable and later type B2 engine ('100B2/4070') is fitted. The car's original exterior colour is listed as black. Mannes had ordered this 404 for a client from Antwerp. Related documents on file include a copy of the original order from Établissements Remy Mannes to 'The Bristol Aeroplane Company Limited'; a copy of the sales invoice; copies of all transport papers; and some hand-written notes.

In July 1968, the Bristol returned to the UK having been purchased by one Michael Beardmore, and was registered in the UK with the number 'LGU 200', which it still carries today. The car was sold again in the early 1970s to a Mr Bradburn, who sold it and bought it back again in 1982 (see correspondence on file dated 1982). While in his ownership, 'LGU 200' was featured in an article in Thoroughbred & Classic Cars' June 1983 edition (article on file).

The Bristol moved to Oslo, Norway in 1985 (old title on file), returning to the UK in 1989. The previous owner registered the car in 1989 and the last owner in 2008. Today, 'LGU 200' is presented in lovely condition, with its believed original and well-preserved interior possessing a beautiful patina.

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

Longbridge factory BMC 1959. Welding the exposed seam on Austin Seven (Mini) bodyshells.

Collection: Longbridge

Date: 1959

Reference Number: L006304

To enquire about any of our images or for more information, please contact photo@britishmotormuseum.co.uk or visit our photographic website at www.motorgraphs.com/.

Looking splendid in its red with chrome detailing.

2197cc Petrol

FSK294

1959.

The 220 was powered by a 2,195cc six-cylinder engine producing 80bhp at 4,600rpm, good enough for a top speed of 100mph with acceleration to match, while the gearbox was an all-synchromesh four-speeder with column change.

From 1956 a new range featuring unitary construction bodyshells employing large, box-section side-members - hence the term 'Ponton'

Programme info:

In 1984, Mazda Rally Team Europe, under the management of Achim Warmbold in Belgium, created a competition specification Evolution Rotary RX-7 to compete in Group B rallying. Unlike virtually all other manufacturers, the team were only required to produce 20 cars as they had already been homologated in Groups 1, 2 and 4. Of the 20 bodyshells produced, it is believed that just seven were fully assembled by MRTE ready for competition with the remainder being left as parts for spares. The RX-7 proved very durable and, although not as potent as some competitors, did achieve a credible third place in the '85 Acropolis Rally piloted by Ingvar Carlsson.

During the 1986 season, the governing body banned Group B, and Mazda, like all the other teams, were left with cars but no championship to compete in with them. At the time, MRYE 019, which was built in June 1985, had not been used and so it remains, unused and original.

Grand Avenue

London Classic Car Show

ExCel Centre, London Docklands

15th-18th February 2018

Sold for £ 2.500

The Jaguar Land-Rover Collection

Brightwells Auctions

Bicester Heritage

Buckingham Road

Bicester

Oxfordshire

England

March 2018

Launched in 1958 at the Paris Autoshow, the new Humber Super Snipe was the first large Rootes Group car to use a monocoque bodyshell, replacing the pre-war design of its outmoded predecessor.

Losing its big separate wings of old in favour of a more modern unitised chassis and body, the new design was heavily influenced by the 1955 Chevrolet and was claimed to be the largest bodyshell built in the UK at the time – a strange boast but one which the marketeers thought significant.

Initially sold with a 2,6-litre 112 bhp straight-six, a year later the Series II arrived with an improved 129 bhp 3-litre unit which took the car’s top speed over the ton - not that its customers would have approved of such behaviour. Beautifully appointed with a build quality second to none, they were popular with bank managers and Government Ministers who needed to look sober and responsible - the Snipe couldn’t have fulfilled the task better.

Offered in a bewildering range of sub-models and face-lifts, these large Snipes were superbly engineered, but their rather formal image left them trailing in the wake of their more rakish competitors such as the Rover P5B and Ford Zodiac and they never proved as popular which is a shame as they are fine cars indeed.

This lovely mid-green Series II, with its luxurious leather upholstery has had 11 previous keepers according to the accompanying V5C. Its registration number is non-transferable and it has covered 4.200 miles since 2006 according to the DVLA MOT history. It’s most recent MOT expired in February 2013 and the car has covered only a handful of miles since then, the odometer showing a total of 82.792 miles with insufficient paperwork to prove its validity.

We have had the car running since its arrival onsite, although bidders are advised that the brakes are non-operational so we have been unable to drive the car.

EUROPE: Designed to meet the crashworthiness requirements of EN 15227, Bombardier’s Talent 2 is the latest entrant in the competitive European market for regional EMUs. Dr Harry Hondius reports.

Formally unveiled at the InnoTrans 2008 fair in Berlin last September, Bombardier’s Talent 2 EMU is currently undergoing commissioning and acceptance trials before entering service with DB Regio in Germany.

Talent 2 is the latest in a series of new regional and suburban trainsets designed to meet the crashworthiness requirements of EN 15227. As such, it forms part of the second generation of EMUs to be designed by the manufacturers rather than the railway operators themselves. Talent 2’s main competitors are Alstom’s Coradia Continental, Siemens’ Desiro ML and Stadler’s Flirt designs.

Talent 2 has a strong heritage. The Talent 1 DMU was developed by Waggonfabrik Talbot in Aachen, just before Bombardier purchased the company in 1995. Unveiled in the spring of 1996, the regional diesel train was a completely new and striking design. Talent 1 proved very successful, with 223 diesel-mechanical and 63 diesel-electric sets built. In addition, 198 ‘Elektro Talent’ EMUs were built with Elin in Austria, of which 20 were for use in Hungary, making 484 trains in all.

Bombardier’s NINA EMUs for BLS have many similarities with Talent 1, including the Flex-Compact bogies, albeit with electrical equipment from Alstom; this family comprises 37 RABe525 S-Bahn sets and 13 RABe535 regional sets for the Lötschberg route. In Scandinavia Bombardier has delivered 90 Regina wide-bodied EMUs to Swedish operators. The company’s biggest success came in France, where 698 AGCs have been ordered along with 172 Spacium wide-bodied suburban EMUs for the Paris region. These two designs also use bogies from the Flex-Compact (formerly Wegmann) platform.

So why, with so many trains in production, has Bombardier developed another new design? Changing demands from operators and leasing companies and the new crashworthiness norms are the main reasons, along with the desire for greater flexibility to meet differing customer requirements over the lifetime of the train, especially regarding the number of doors and the entrance height.

Crashworthiness norms

From August 1 2008 any new rolling stock designs in the European Union must meet the crashworthiness requirements of EN 15277. These demand a survival space for the driver, and the train must remain structurally intact, safeguarding the passengers, in three specific scenarios:

* in a collision between two similar trains at 36 km/h,

* in a collision with a 90-tonne freight wagon at 36 km/h,

* in a collision on a level crossing with a 15 tonne lorry at 110 km/h.

Although the rules came into force in August there is provision for local safety authorities to allow a four-year transition period. So far the Dutch have taken the lead in demanding full application, with the latest Sprinter EMUs (RG 3.08 p180), 82 out of 437 GTW trainsets and the Protos EMUs all compliant. Alstom’s Coradia Nordic was also built to meet the crashworthiness criteria from its inception, but so far the Coradia Continental sets for DB do not (RG 5.08 p321). Whilst the ET 422 S-Bahn units are compliant, DB placed framework contracts in July 2008 for 120 Coradia Lint, 60 RegioShuttle and 60 Desiro Classic DMUs, which do not meet EN 15227; these will be ordered as and when DB Regio AG wins regional operating concessions.

Bombardier’s AGC and Spacium designs, as well as the Desiro ML from Siemens do meet the EN 15227 requirements. The NINA does not, nor do the 614 Flirts from Stadler, although a crashworthy Flirt variant has been prepared for future orders.

Among the second-generation competitors, Alstom has won orders for 150 Coradia Lirex Nordic and 141 Coradia Lirex Continental units, Siemens is supplying 17 Desiro Main Line EMUs in Germany and 305 for Belgium, and Stadler has 186 German orders out of 614 Flirts in total.

Framework contract

In February 2007 DB AG signed a framework agreement with Bombardier for Talent 2, providing for up to 321 trainsets to be supplied between May 2009 and December 31 2014. These will be converted to firm orders as and when DB wins regional or S-Bahn concessions which require new electric trainsets.

So far, firm orders have been placed for 76 sets:

* S-Bahn Nürnberg: 42 four-car sets of Class ET 442;

* Moselbahn, Koblenz – Trier/Perl: eight four-car and five two-car units;

* Cottbus – Leipzig: three four-car and three two-car units;

* Rhein-Sieg regional express, Aachen – Köln – Siegen: three three-car, 10 four-car and two five-car units.

This last order was valued at €60m, which equates to just €19 000/m²; this is a very competitive price indeed.

All-steel bodyshell

Developed in Hennigsdorf, Talent 2 is planned as a platform offering trainsets of two to six cars, varying from 40 m to 104 m in length (Fig 2). It is an all-steel welded car, with the bodies fabricated at Ceska Lipa. The principal concept behind Talent 2 is to offer the greatest operational flexibility terms of seating arrangements, toilets and door positions. The window panels have the same dimensions as the door panels, so that doorways can be added, or even removed, at a later date.

The end cars have entrances at 800 mm above rail. The floor height in the intermediate cars can vary depending on customer requirements. The option selected for the Nürnberg units was shown at InnoTrans: a small ramp links the floor at 695 mm above rail with the entrances at 773 mm. A Bode sliding step at 573 mm (Fig 3 left) serves 550 mm high platforms. An alternative arrangement (Fig 3 right) would have a ramp down from the 695 mm floor to a doorway at 598 mm, still only 50 mm higher than a 550 mm platform and a sliding step at 360 mm for lower platform heights.

To meet EN 15227, the end cars have hydraulic energy absorbers at two levels, in addition to the energy absorption qualities of the automatic Voith Scharfenberg coupler. A steel cage around the cab provides the survival space for the driver, enclosed by a GRP nose from Stratiform. Reinforcement of the articulations prevents damaging energy levels being transmitted to the inner coaches. The Hübner corrugated gangways provide an inter-car walkway 732 mm wide.

Talent 2 also runs on bogies from the Flex-Compact family like those used on AGC or Spacium which have H-frames with a degree of in-built flexibility. The primary suspension and axle guidance acts as a linkage to the axle boxes, connected to the frame via rubber bushes on the inner side and via steel primary springs with a vertical shock absorber on the outer side. Secondary suspension is by air springs, with rubber/metallic auxiliary springs on each side complemented by a vertical shock absorber, and two torsion anti-roll stabilizers, two yaw dampers and one horizontal damper. A central connection transmits traction and braking forces. Knorr electro-pneumatic wheel brakes act on 10 wheels, and spring-loaded parking brakes are applied to 12 wheels. One of the end bogies is equipped with electromagnetic track brakes and both end bogies have Delemon flange lubrication equipment.

A single pantograph feeds the electrical equipment which was designed at Västerås. Skoda asynchronous four-pole forced ventilated motors drive the two end bogies and the central articulation bogie. They have a maximum power of 505 kW and a continuous rating of 380 kW, with a maximum speed of 5 614 rev/min. The motors are fully suspended, and drive through a toothed coupling and 1:5·05 single-reduction Watteeuw gears which are suspended from the frame on one side and rest on the axle. Two-stage gearing is provided for the powered articulation bogie because of the limited space.

All of the equipment is mounted on the roof with the exception of the two transformers and the 110 V, 105 Ah batteries, which are slung under the floors of the end cars. The two transformers deliver 6 x 428 kVA. Each motored bogie has its own inverter, of which two include auxiliary inverters. A separate 500 W inverter feeds the 24 V DC circuit.

To meet DB Regio’s design requirements, the trains are fitted with Kiel’s Match type seats. The single-glazed windows come from Securit in Poland. Bode has also supplied the electrically operating sliding-plug doors. Because of EBA’s latest safety requirements, the closing of the doors is monitored by optical sensors in two dimensions and the doors are fitted with highly-sensitive rubber edging strips incorporating Mayser electronic sensors. The fully-accessible toilet compartment has a shell from Bahrain and fittings from Denmark.

Air-conditioning is provided on all vehicles. Each unit is rated at 2 900 m³/h when air is being recirculated, or 1 900 m³/h with fresh air. The end cars have provision for 31·75 kW of heating, compared with 33·4 kW for the intermediate vehicles, cooling rate for all cars is 27 kW. Warm air is fed into the saloons from below, cool air from the roof. The driving cabs are equipped with separate air-conditioning units, rated at 5·4 kW heating and 4·5 kW cooling. These can recirculate at 550 m³/h or add fresh air at 400m³/h. Overall train design is by Michel Sohn at Hennigsdorf.

A versatile family

Although we have not yet had the opportunity to sample the riding qualities of Talent 2, Bombardier seems to have made a serious effort to develop a largely-standardised steel-bodied trainset with the flexibility to deliver a variety of functional interior layouts without incurring heavy engineering costs. As well as the established Flex-Compact bogies, Talent 2 uses several elements that are well-proven in other DB series. The cab layout, for example, is identical to that of the Class ET 422 units.

In the private operator market, the closest competitor to Talent 2 is the Flirt, which does not yet meet EN 15227, is 1·8 m shorter, and carries 51 fewer passengers. The Flirt has 5·2% less power, and only four driven axles, but is 8·6% lighter.

This text is from railway gazette

Following withdrawl from Bakerloo line service in 1985, DM 11172 spent a number of years at Ruislip depot (with the rest of the 4-car unit) being used as a staff mess facility for some of that time.

11172 is seen in the sidings outside the depot on 2nd May 1988, just over 2 weeks before the last of the '38 stock was finally withdrawn from LUL service. The car seems to have suffered at the hands of vandals with numerous windows broken but it seems to have avoided the attention of the graffiti artists.

This car (together with 10139) eventually made their way to the Isle of Wight as spare vehicles. (They were provided as spare bodyshells in case one of the 18 other cars became damaged beyond repair). Although they were notionally allocated the unit number 483 010, they never carried passengers again. Their windows were plated over and they were painted blue with half-yellow fronts. They were initally stored in the siding at Sandown station before being moved to Ryde where the car bodies were removed from their bogies - the bodies spent the remainder of their time on the island languishing in the car park behind Ryde St Johns Road signal box. They were eventually scrapped circa 2001 following the reduction in the island's fleet size.

(Photographed from a passing Central line train).

Triumph GT6 Mk.III (1970-73) Engine 1998cc S6 OHV Production 13043

Registration Number CWD 760 J (Dudley)

TRIUMPH SET

www.flickr.com/photos/45676495@N05/sets/72157623847263736...

The final facelift for the Michelotti designed GT6. 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. a larger front anti-roll bar was fitted. A brake servo was also added in 1973, and seats were changed from vinyl to cloth. Engine power and torque for the MK3 was similar to the MK2, but better aerodynamics led to a new top speed of 112 mph

Many thanks for a fantabulous 35,200,100 views

3hot The National Memorial Arboretum, Alrewas, Stafford shire 26:04:2015l:2015 Ref 105a-716

10.34: DeltaRail's "Emma" on a modal heading west through Linden.

Note it is carrying its old DR number that it carried from 1989 until the 01/01/1992 merger of railways under Deutsche Bahn with Reunification.

A fire at Blankenberg on 18/05/1989 damaged the original lok 243 223-5 (LEW Works No. 18972 of 1987).

With this and other damaged Trabbis needing replacement, 5 spare frames and bodyshells numbered 20968 to 20972 were built at LEW (VEB Lokomotivbau Elektrotechnische Werke „Hans Beimler“ Hennigsdorf) in 1989.

So 20971 bacame 243 972-7 using the stripped parts from damaged 243 223-5.

Becoming 143 972-8 under DB, it was a East German based lok until 1998.

It then spent 2 years at Mannheim and 16 years at Freiburg where I first saw it.

Its last DB home depot before switch off was officially Seddin when it worked for DB Cargo from 14/12/2016.

It's last DB overhaul was in 2009 (REV IS630 23/09/2009) and it was retired on 11 July 2017 as its 2nd Verl extension was running out.

Bought by DeltaRail on 10/01/2018, it got a full overhaul and repaint at AW Dessau (REV IS630 16/07/2018).

As can be seen, it is now in the old DR maroon which suits it very well 😊 👍

Humber Hawk (1957-67) Engine 2267cc S6 OHV Production 15539 (all series, 6109 series 1A)

Registration Number TSJ 952

HUMBER SET

www.flickr.com/photos/45676495@N05/sets/72157623665287863...

The 1957 Hawk had a completely new body with unitary construction which it would go on to share with the 1958 Humber Super Snipe. This was the biggest bodyshell for a saloon/estate car built in Great Britain at the time. The 2267 cc engine was carried over, though with modifications to the distributor mounting, and other details; and an automatic transmission, the Borg Warner D.G. model, was now available. The body was styled in Rootes' own studios and featured more glass than previous models, with wrap-around front windscreen, which gave it a considerable resemblance to a 1955 Chevrolet.

There were several revisions during the car's life, each resulting in a new Series number.

The 1959 Series 1A had changed gear ratios and minor trim changes.

The Series II launched in October 1960 had disc front brakes, servo-assisted. The automatic option was no longer available on the home market.

The Series III of September 1962 had a larger fuel tank and bigger rear window. The export model automatic option was also dropped.

More significant changes came with the October 1964 Series IV. The roof was made flatter, the rear window smaller and an extra side window fitted behind the rear doors. Synchromesh was fitted to bottom gear. An anti-roll bar was fitted at the rear.

The final Series IVA of 1965 saw the automatic option re-introduced, this time being the Borg Warner Model 35.

Many Thanks for a fan'dabi'dozi 25,593,200 views

Shot 09:06:2014 ar The Luton Classic Car Show, Stockwell Park, Luton REF 102-431

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!

Ambling slowly through Peterborough with the 4L20 Hams Hall to Parkeston SS is GBRf Class 66, 66755.

One of Britain's, and indeed Europe's, most numerous diesel locomotives, the Class 66 has become the face of nearly every freight operating rail company on the UK network, a simple, utilitarian design with an enormous, powerful engine. But with it's popularity among rail companies came a price, as it is often listed as one of the most hated locomotives ever to hit the UK rails, largely because of the slew of older BR classic locomotives it replaced from the late 1990's onward.

But is it really deserving of such a bum rap?

By the mid-1990's it was apparent that a majority of the ex-British Rail locomotives were well beyond their bloom of youth. Aside from the Class 58's of 1983, the Class 60's of 1989, and the American built Class 59's of 1985, most locomotives in the service of freight companies were coming up to 30 or 40 years old, and reliability was a major issue. Years of under-investment in the BR freight sector Railfreight Distribution, had resulted in a fleet comprised of decrepit diesels such as the Class 37's and Class 47's, being worked into the ground to keep the company rolling. Although the opening of the Channel Tunnel in 1994 was a catalyst to investments for freight trains working those particular trunk routes to the South East, with the construction of the Class 92's and the refurbishment of Wembley based Class 47's, the remainder of the freight operators, by this time led by shadow franchises Loadhaul, Transrail and Mainline, were left with a fleet that was slowly dying before their eyes. Class 47's, especially, needed a major overhaul every seven years, costing £400,000; yet had an average daily availability of less than 65% with only 16 days between major failures.

Enter Wisconsin Central, who, in 1996, bought the three franchises together with Railfreight Distribution and mail operator Rail Express Systems to create EWS, or English, Welsh & Scottish Railways. As part of the franchise commitment, the intention was to replace the ageing diesel fleet with a standard design that would reduce maintenance and operating costs substantially, with higher levels of reliability and efficiency. Looking at the fleet of diesels in general, it was noted that among the most reliable classes in the UK were the small fleet of 15 Class 59's, built by General Motors between 1985 and 1995 for private Aggregate operators such as Foster Yeoman and Hanson, as well as energy company National Power for the haulage of their coal trains between Collieries and Power Stations. These engines were, for the most part, substantially younger than the likes of the Class 20's, 31's, 37's and 47's, and more reliable than the early built Class 56's from Romania, which were infamous for their poor build quality.

Seeing their success, EWS placed an order in 1997 for 250 locomotives based on similar principles to that of the Class 59, often dubbed one of the biggest locomotive orders since the age of Steam. Locomotives were built at GM's factory in London, Ontario, and externally the bodyshell and design shared that with the Class 59. Internally though, the engines took many of GM's previous developments and updated the engine and traction motors to enable higher speeds. The new locomotive was fitted with the 20 year old design of the EMD 710 12-cylinder diesel engine, found originally in the GP60 freight locomotives of North America. However, some of GM's newer creations also made it into the mix, such as updated cab-control systems, the kind found in the Irish Railways Class 201 of 1994.

Originally designated Class 61, the first of these new locomotives arrived by boat at Immingham in June 1998, prior to proving tests at Derby. The locomotives then shipped at a rate of 11 per month into the UK via Newport Docks, until the order was completed in December 2001. After unloading, EWS engineers then simply took off the tarpaulin, unblocked the suspension, and finally as each was shipped with water and fuel, hooked up the batteries, before starting the engine and handing the locomotive into service. Almost immediately, other UK freight operators took interest in the Class, and operators such as Freightliner, GB Railfreight and Direct Rail Services also placed orders for the class.

Upon their introduction, reliability levels for EWS's operations improved substantially. Each locomotive is specified and guaranteed to 95% availability, aiming for a minimum of 180 days mean time between failures. It is designed to cover 1·6million km between major rebuilds, equivalent to 18 years' service, with each major rebuild costed at £200,000. But with their success came the sad reality that the much loved classes of yesteryear were going to be given the push, and this is where a majority of the Class 66's unpopularity comes from. It could have been understood the replacement of the 40 year old Class 20's, 31's, 37's and 47's, as it was quite clear they were past their prime, the same could equally be said for some of the earlier Class 56's of the late 1970's. However, the line was stepped across with the withdrawal of the Class 58's and Class 60's, as the desire of EWS to have a standardised fleet, resulted in the removal of locomotives that were nowhere near life-expired. The large-scale retirement of these extremely reliable and powerful locomotives that weren't even 20 years old was seen as a travesty, and whilst some Class 60's have seen a revival with other operators as of late, the Class 58's are all but extinct, whilst many Class 60's continue to languish in yards across the UK, mostly at Toton in the East Midlands.

Nevertheless, the class continued to grow over the years, and, upon the conclusion of Class 66 production in the UK in 2014, 446 of the class were eventually built. But we can't forget also that the class has seen major success across Europe as well, with dozens of engines in operation in Germany, the Netherlands, Belgium, Luxembourg, Sweden, Norway, Denmark, France, and Poland, with certification pending in the Czech Republic and Italy.

Today, a majority of the class is still in service with a variety of operators. DB Schenker, the successor to EWS, continues to operate the largest fleet of 249 locomotives. Freightliner operates 141, DRS operates 19, GBRf operates 72 and Colas Rail operates 5. Not all of the locomotives however remain with us, as three have been written off.

The first was 66521 on the 28th February, 2001, where after hitting a Land Rover that had fallen down an embankment from the M62 motorway, a southbound GNER InterCity 225 set led by lightweight Class 82 DVT, 82221, derailed and ran straight into the path of the oncoming Class 66 which was working a northbound coal train. With an estimated closing speed of 142mph, the DVT was obliterated upon hitting the Class 66, and the freight locomotive was mangled and distorted as it was crushed between its loaded coal train behind and the passenger coaches in front. In the disaster, 10 people were killed, including 66521's driver Stephen Dunn, although his instructor Andrew Hill, who was also riding in the cab, was able to survive. The locomotive however was for the most part destroyed, and scrapped later that year.

The second was on the 4th January, 2010 involving 66048, which derailed at Carrbridge in snowy weather. Coming down the Highland Mainline with a loaded container train, it passed a signal at danger and was derailed at trap points, subsequently falling down an embankment into trees and injuring the two crew members.

The third was on the 28th June 2012, where GBRf 66734 derailed at Loch Treig whilst working Alcan Tanks. The inability of recovery crews to access the highly remote and dangerous location resulted in the engine being cut-up on site.

Additionally, many Class 66's have suffered low-speed collisions and derailments, either through faults in the track, driver error, or faults with the rolling stock.

However, despite the criticism, and often being dubbed as bland and utilitarian, the Class 66 is still a major part of the UK freight network, working behind the scenes without need of major attention so as to get the job done. Indeed it may find a home among rail enthusiasts, and perhaps one day it'll be dubbed a classic like the Class 37's and 47's it replaced, but at the moment it's the UK networks humble hero, plying its trade the best way it knows how.

Triumph GT6 Mk.3 (1970-73) Engine 1998 cc S6 OHV Production 13,042

Registration Number HLP 487 K (London)

TRIUMPH SET

www.flickr.com/photos/45676495@N05/sets/72157623847263736...

Introduced in 1966 the first series of GT6 was introduced in 1966 as a six cylinder sports coupe based on the Spitfire. Designed by Giovanni Michelotti and based on the recently introduced Spitfire Mk. IV. The new body was a sleek fastback design with an opening rear hatch, In essence a two seater but with a small extra rear seat could be ordered, large enough for small children. The family resemblance to the Spitfire Mk II was strong, the longer 6-cylinder engine necessitated a new bonnet top with a power bulge and the doors were provided with opening quarter light windows and squared-off glass in the top rear corner. The 6-cylinder engine was, like the Vitesse 2 litre, tuned to develop 95 hp (71 kW) with a top speed pf 106mph

The Mk.II GT6 was launched in 1978 using a 104bhp version of the six cylinder engine, with optional overdrive as available on the Mk.1. Now fitted with lower wishbone independant rear suspension. The Mk.2 also got a new facia, better ventilation for both engine bay and cockpit and Rostyle wheels, though wires were a popular option. There were other changes for the Mk II; the front bumper was raised (in common with the Spitfire Mk 3) to conform with new regulations ecessitating a revised front end, and side vents were added to the front wings and rear pillars. Under the bonnet, the engine was the uprated Vitesse MkII unit developing 104 hp (78 kW) with a new cylinder head, camshaft, and manifolds Performance improved slightly to 107 mph

The third generation of 1970 was the GT6s last major facelift the entire bodyshell was revised to match the changes made to the Spitfire Mk IV: modifications included a cut-off rear end, recessed door handles and a smoother front end,and the deletion of the chrome stripes on top of the wings . Only detail changes were made to the mechanics, but in 1973 – close to the end of the car's production life – the rear suspension was changed again, this time for the cheaper "swing-spring" layout fitted to the Spitfire Mk IV. Engine output was simular to that of the Mark 2 but better aerodynamics led to a new top speed of 112 mph

Diolch am 80,573,385 o olygfeydd anhygoel, mae pob un yn cael ei werthfawrogi'n fawr.

Thanks for 80,573,385 amazing views, every one is greatly appreciated.

Shot 30.05.2021. at Capesthorne Hall car show, Siddington Cheshire 145-152

Ford Lotus Cortina Mk.1 (1963-66) Engine 1558cc S4 DOC Production 4012

Race Number 68 Michael Steele + Roger Buxton

FORD UK SET

www.flickr.com/photos/45676495@N05/sets/72157623665118181...

The history of the Cortina Lotus began in 1961. Colin Chapman had been wishing to build his own engines for Lotus, mainly because the Coventry Climax unit was so expensive. Colin Chapman's chance came when he commissioned Harry Mundy (a close friend and designer of the Coventry Climax engine and technical editor for Autocar) to design a twin-cam version of the Ford Kent engine. Most of the development of the engine was done on the 997cc and 1,340cc bottom end, but in 1962 Ford released the 116E five bearing 1,499 cc engine and work centred on this. Keith Duckworth, from Cosworth, played an important part in tuning of the engine The engine's first appearance was in 1962 at the Nürburgring in a Lotus 23 driven by Jim Clark. Almost as soon as the engine appeared in production cars (Lotus Elan), it was replaced with a larger capacity unit of 1557cc

Whilst the engine was being developed, Walter Hayes (Ford) asked Colin Chapman if he would fit the engine to 1,000 Ford saloons for Group 2 homologation. The Type 28 or Lotus Cortina or Cortina Lotus (as Ford liked to call it) was duly launched. Ford supplied the 2-door Cortina bodyshells and took care of all the marketing and selling of the cars, whilst Lotus did all the mechanical and cosmetic changes. The major changes involved installing the 1,557 cc engine together with an Elan close ratio gearbox, he rear suspension was drastically altered and lightweight alloy panels were used for doors, bonnet and boot. Lightweight casings were fitted to gearbox and differential. All the Lotus factory cars were painted white with a green stripe (although Ford built some for racing in red, and one customer had a dark blue stripe due to being superstitious about green). The cars also received front quarter bumpers and round Lotus badges were fitted to rear wings and to the right side of the radiator grille.

Initially, the engines were built by J. A Prestwich of Tottenham and then Villiers of Wolverhampton. In 1966, Lotus moved to Hethel in Norwich where they had their own engine building facilities

To homologate the car for Group 2, 1000 were required to be built in 1963, and the car was duly homologated in September 1963. In the same month, in the car's first outing, in the Oulton Park Gold Cup, the car finished 3rd and 4th behind two Ford Galaxies, but beat the 3.8-litre Jaguars which had been dominant in saloon car racing for so long. Soon Ford were running cars in Britain, Europe, and the USA, with Team Lotus running cars in Britain for Ford, and Alan Mann Racing running cars in Europe, also on behalf of Ford. The Cortina Lotus was able to beat almost anything except the 7-litre V8 Ford Galaxies, and later, Ford Mustangs.

This car raced at Donington in the Pre-66 Under Two Litre Touring Car race.

A Big thankyou for an incredible 24 Million views

Shot 04:05:2014 at the Donington Historic Festival REF 102-150

Originally Charles Roberts & Company's wagon works was located at Horbury Junction southeast of Horbury, West Yorkshire, England. It became part of the Procor group in the 1970s as Procor Engineering Ltd. and, subsequently, part of Bombardier Inc.'s European railway businesses in 1990 as Bombardier Prorail, closing in 2005.

the plant produced bodyshells for the British Rail Class 60 during the Procor period, and British Rail Class 92 during Bombardier's ownership. During the Second World War the factory was involved in the production of the Churchill Tank.

The plant was involved in the passenger vehicle construction and refurbishment. In the 1950s tram bodies were constructed for Blackpool Tramways 'Coronation Cars', and Sheffield Tramways. In the early 2000s Bombardier Voyager trains were built at Horbury and at Bombardier's BN plant in Bruges, Belgium. Refurbishment of GNER's Mark 4 coach fleet took place at Horbury in the mid-2000s.

The Alfa Romeo 1750 Berlina and Alfa Romeo 2000 Berlina (both 105 series) were executive cars (E-segment) produced by Italian car manufacturer Alfa Romeo from 1968 to 1977. Berlina is the Italian term for a saloon car. Both cars had Alfa Romeo twin cam inline-four engines; the 1.8-litre 1750 Berlina was made between 1968 and 1971, when it was phased out in favour of the improved 2.0-litre 2000 Berlina.

The 1750 Berlina was based on the existing Giulia saloon, which continued in production. The 1750 was meant to top the saloon range, above the 1300 and 1600 cc versions of the Giulia. In the United States, however, the Giulia saloon ceased to be available and was entirely replaced by the 1750 Berlina. The 1750 entered full production in South Africa in early 1969, later complemented by the 2000.

In contrast to the Giulia, the 1750s had reworked bodywork and bigger engine, shared many parts with other concurrent models in the Alfa Romeo range, but sold many fewer units during their production span.

The 1750 bodyshell had a longer wheelbase than the Giulia, and revised external panels, but it shared many of the same internal panels. The windscreen was also the same. The revisions were carried out by Bertone, and while it resembled the Giulia some of that vehicle's distinctive creases were smoothed out, and there were significant changes to the trim details. The car's taillights were later used on the De Tomaso Longchamp.

The Alfa Romeo 2000 Berlina was produced by Alfa Romeo between 1971 and 1977. The engine was bored and stroked out to 1,962 cc. A different grill distinguishes 2000 from 1750. Also, external lights were different between the models. The 1750 had 7 inch diameter outboard headlights, whereas the 2000 had 5 3/4 inch diameter in all four positions. The tail light clusters were also of a simpler design on the 1750.[8] With two carburetors, this 2 litre Alfa Romeo Twin Cam engine produces 132 PS (97 kW; 130 hp). Top speed was 190 km/h (118 mph) and 0-100 km/h (62 mph) acceleration took 9 seconds. Gearbox was 5-speed manual (also 3-speed automatic on some versions).

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.

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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.

Collection Freddy Deklerck

Les Grandes Marques du Monde au Grand Palais

Bonhams

Parijs - Paris

Frankrijk - France

February 2019

Estimated : € 15.000 - 20.000

Sold for € 23.000

Mercedes-Benz introduced its new medium-sized, S-Class range at the International Motor Show, Frankfurt in 1979, there being no fewer than seven models with the new W126 body style. Launched at the Frankfurt Auto Show in 1985, the 560 SEC coupé was an addition to the line-up and the most powerful of the three luxury coupés then on offer. This new model retained the existing bodyshell virtually unchanged but was powered by the new 5.547cc version of the M117 all-alloy V8 engine producing 300bhp (DIN), though customers resident in the USA had to make do with a considerably less powerful version. As befitted one of Mercedes-Benz's flagships, the 560 SEC came standard with a host of desirable features while customers could choose from an equally lengthy list of options. Despite its elevated price, the 560 SEC would turn out to be the most popular of the W126 coupés.

First registered on 4th May 1988, this 560 SEC is believed to have been delivered new to France and thus is one of the rarer European-specification 300 horsepower models. Accompanying documentation includes with the Étoile booklet from Mercedes-Benz France giving six months warranty on a used vehicle and recording that this car had recorded only 32.000 kilometres in September 1990 when it was sold by Mercedes-Benz International Garage SA. Bought by the current owner to form part of his collection in 2007, this beautiful modern Mercedes is offered with French Carte Grise.

W111

2.192 cc

120 PS

2.729 ex.

Bonhams : the Zoute Sale

Sold for € 103.500

Zoute Grand Prix 2017

Knokke - Zoute

België - Belgium

October 2017

'In the design of the 220 SE coupé, practical considerations have sometimes been given up for better looks, but the car gives passengers as well as the driver a fine feeling of safety, based in fact on first-class road-holding, excellent brakes and precise steering, not to mention the extreme comfort of the wide, well-upholstered individual front seats.' – Car & Driver.

Mercedes-Benz debuted four new models at the Frankfurt Show in 1959 - the 220 SEb among them - all of which shared the same basic unitary-construction bodyshell and all-round independent suspension. Longer than their predecessors, these elegant newcomers featured a wider radiator shell, wrap-around windscreen, wider rear window, and vertically positioned twin headlamps. The new 220 SEb retained the fuel-injected, single-overhead-camshaft engine of the previous 220 SE, though maximum power of the 2,195cc six was increased by five horsepower to 120bhp (DIN). Top speed was now 107mph (170km/h) with 60mph (97km/h) attainable in under 14 seconds. Coupé and Cabriolet models appeared in 1960 and 1961 respectively, minus the already dated-looking tail fins of the saloon. More modern in style, the luxurious 220 SEb Coupé and Cabriolet were better appointed too, being equipped as standard with a rev counter and leather upholstery, while four-speed automatic transmission with floor-mounted gearchange lever was avaiable as an option. Front disc brakes were fitted from the start of production, a benefit not enjoyed by the 220 SEb saloon until 1962. By the time production ceased in October 1965, fewer than 17,000 220 SEb Coupé and Cabriolet models had been manufactured, and today these stylish and luxuriously equipped Grand Tourers are highly prized.

Delivered new via the Mercedes-Benz sales organisation in Switzerland on 29th May 1963, this 220SEb Cabriolet has been in the vendor's private collection since 1999. We are advised that the previous owner's widow stated that her husband was the sole owner in Switzerland, but here are no documents surviving from this stage of the car's life.

Since 1999, restoration and maintenance have been documented by invoices and photographs. Having commenced in 2003, restoration of the bodywork was completed in 2009 using original Mercedes-Benz panels as far as possible, while any unobtainable panels were made by hand (no off-the-shelf panels were used). The car was then repainted in the original colour (DB 190 graphite grey) with subsequent cavity sealing. These works are documented by numerous photographs in addition to the invoices. The mechanicals were fully tested and, where necessary, reconditioned; since then, only regular maintenance has proved necessary as no repairs have been needed. A list of the works carried out is available on request.

The bumpers and sill trim strips were newly chromium-plated during the restoration; the remaining trim is described by the vendor as in a good-to-very-good original condition. The red leather upholstery is still largely original as are the nicely patinated door panels and carpets. All wood trim was re-veneered, and the interior also features a period-correct Blaupunkt Frankfurt radio with MP3 adapter and Hirschmann electric antenna. The rebuilt convertible hood is made of original-specification 'Sunland' fabric with horsehair padding, while the tonneau cover is new (shrunken original with car). An original power steering system as well as the obligatory hazard-warning flasher has been retrofitted. The wheels are shod with new Vredestein Sprint Classic tyres (185/80 R14) and the battery likewise is new. In March 2017, a cosmetic and mechanical overhaul of the engine ancillaries was carried out, though no repairs were found necessary. Driven regularly and ready to enjoy, this elegant Mercedes-Benz soft-top is offered with copy data card, German 'Historic' registration papers, and TüV.

The history of the Lotus Cortina began in 1961. Colin Chapman had been wishing to build his own engines for Lotus, mainly because the Coventry Climax unit was so expensive. Colin Chapman's chance came when he commissioned Harry Mundy (a close friend and designer of the Coventry Climax engine and technical editor for Autocar) to design a twin-cam version of the Ford Kent engine. Most of the development of the engine was done on the 997cc and 1,340cc bottom end, but in 1962 Ford released the 116E five bearing 1,499 cc engine and work centred on this. Keith Duckworth, from Cosworth, played an important part in tuning of the engine. The engine's first appearance was in 1962 at the Nürburgring in a Lotus 23 driven by Jim Clark. Almost as soon as the engine appeared in production cars (Lotus Elan), it was recalled and replaced with a larger capacity unit (82.55 mm bore to give 1,558 cc). This was in order to get the car closer to the 1.6 litre capacity class in motorsport.

Whilst the engine was being developed, Walter Hayes (Ford) asked Colin Chapman if he would fit the engine to 1,000 Ford saloons for Group 2 homologation. Chapman quickly accepted, although it must have been very busy in the Cheshunt plant, with the Elan about to be launched. The Type 28 or Lotus-Cortina or Cortina-Lotus (as Ford liked to call it) was duly launched. Ford supplied the 2-door Cortina bodyshells and took care of all the marketing and selling of the cars, whilst Lotus did all the mechanical and cosmetic changes. The major changes involved installing the 1,558 cc (105 bhp (78 kW; 106 PS)) engine, together with the same close-ratio gearbox as the Elan. The rear suspension was drastically altered and lightweight alloy panels were used for doors, bonnet and boot. Lightweight casings were fitted to gearbox and differential. All the Lotus factory cars were painted white with a green stripe (although Ford built some for racing in red, and one customer had a dark blue stripe due to being superstitious about green). The cars also received front quarter bumpers and round Lotus badges were fitted to rear wings and to the right side of the radiator panel (from the driver's position).

Interior modifications were limited to a centre console designed to accommodate the new gear lever position, different seats and the later style dashboard, featuring tachometer, speedometer, oil pressure, water temperature and fuel level gauges. A wood-rimmed steering wheel was fitted.

The suspension changes to the car were quite extensive; the car received shorter struts up front, forged track control arms and 5.5J by 13 steel wheel rims. The rear was even more radical with vertical coil spring/dampers replacing the leaf springs and two trailing arms with a A- bracket (which connected to the differential housing and brackets near the trailing arm pivots) sorting out axle location. To support this set-up, further braces were put behind the rear seat and from the rear wheelarch down to chassis in the boot. The stiffening braces meant that the spare wheel had to be moved from the standard Cortina's wheel well and was bolted to the left side of the boot floor. The battery was also relocated to the boot, behind the right wheelarch. Both of these changes made big improvements to overall weight distribution. Another improvement the Lotus Cortina gained was the new braking system (9.5 in (240 mm) front discs) which were built by brake specialist Girling. This system also was fitted to Cortina GT's but without a servo, which was fitted in the Lotus Cortina engine bay.

Initially, the engines were built by J. A Prestwich of Tottenham and then Villiers of Wolverhampton. In 1966, Lotus moved to Hethel in Norwich where they had their own engine building facilities. The Lotus Cortina used a 8.0 in (200 mm) diaphragm-spring clutch, whereas Ford fitted coil-spring clutches to the rest of the range. The remainder of the gearbox was identical to the Lotus Elan. This led to a few problems because although the ultra-close gear ratios were perfect for the race track or open road, the clutch was given a hard time in traffic. The ratios were later changed.

The early cars were very popular and earned some rave reviews; one magazine described the car as a tin-top version of a Lotus 7. It was 'THE car' for many enthusiasts who before had to settle for a Cortina GT or a Mini-Cooper and it also amazed a lot of the public who were used to overweight 'sports cars' like the Austin-Healey 3000. The launch was not perfect however, the car was too specialist for some Ford dealerships who did not understand the car; there are a few stories of incorrect parts being fitted at services. There were a few teething problems reported by the first batch of owners, (most of these problems show how quickly the car was developed) some of the engines were down on power, the gear ratios were too close and the worst problem was the differential housing coming away from the casing. This problem was mainly caused by the high loads put on the axle because of the A bracket it was an integral part of the rear suspension. This was made even worse by the fact any oil lost from the axle worked its way on to the bushes of the A bracket. There were 4 main updates made to the Mk1 Lotus during its production to solve some of these problems. The first change was a swap to a two-piece prop shaft and the lighter alloy transmission casing were changed for standard Ford items; this also included swapping the ultra close ratio gears for Cortina GT gear ratios, the main difference was 1st, 2nd and reverse were much higher ratios. from 1964, standard panels were used rather than the light alloy ones. Alloy items and ultra-close ratios coulds be specified when buying new cars.

The 2nd main change came in late 1964 when the entire Cortina range had a facelift which included a full width front grille and aeroflow outlets in the rear quarters because the Lotus Cortinas also gained Ford's new ventilation system which also included an update to the interior. The third and probably most important change came in mid-1965, when the Lotus rear suspension was changed for the leaf springs and radius arms of the Cortina GT. This replaced all the stiffening tubing as well. The last update also came in 1965 when the rear drums were swapped for self adjusting items and also the famous 2000E gearbox ratios were used. These lowered 1st and reverse about halfway between the Cortina GT ratios and the ultra close-ratio box. All these changes made the cars less specialised but far more reliable and all the special parts were still available for competition as well as to members of the public.

The Lotus Cortina had by this time earned an awesome competition reputation. It was also being made in left hand drive when production finished around late 1966 and the Mk2 took over.

Rover SD1 is both the code name and eventual production name given to a series of executive cars built by British Leyland (BL), under the Rover marque. It was produced through its Specialist, Rover Triumph and Austin Rover divisions from 1976 until 1986, when it was replaced by the Rover 800. The SD1 was marketed under various names including Rover 3500, Rover 2300 and Rover Vitesse. In 1977 it won the European Car of the Year title.

In "SD1", the "SD" refers to "Specialist Division" and "1" is the first car to come from the in-house design team. The range is sometimes wrongly referred to as "SDi" ("i" is commonly used in car nomenclature to identify fuel injection).

The SD1 can be considered as the last "true" Rover, being the final Rover-badged vehicle to be produced at Solihull, as well as being the last to be designed largely by ex-Rover Company engineers and also the final Rover car to be fitted with the Rover V8 engine. Future Rovers would be built at the former British Motor Corporation factories at Longbridge and Cowley; and rely largely on Honda.

Design

The new car was designed with simplicity of manufacture in mind in contrast to the P6, the design of which was rather complicated in areas such as the De Dion-type rear suspension. The SD1 used a well-known live rear axle instead. This different approach was chosen because surveys showed that although the automotive press was impressed by sophisticated and revolutionary designs the general buying public was not, unless the results were good. However, with the live rear axle came another retrograde step – the car was fitted with drum brakes at the rear.

Rover's plans to use its then fairly new 2.2 L four-cylinder engine were soon abandoned as BL management ruled that substantially redesigned versions of Triumph's six-cylinder engine were to power the car instead. The Rover V8 engine was fitted in the engine bay. The three-speed automatic gearbox was the BorgWarner 65 model.

The dashboard of the SD1 features an air vent, unusually, directly facing the passenger. The display binnacle sits on top of the dashboard in front of the driver to aid production in left-hand drive markets. The air vent doubles as a passage for the steering-wheel column, and the display binnacle can be easily fitted on top of the dashboard on either the left or right-hand side of the car.

An estate body had been envisaged, but it did not get beyond the prototype stage. Two similarly specified estates have survived, and are exhibited at the Heritage Motor Centre and the Haynes International Motor Museum respectively. One was used by BL chairman Sir Michael Edwardes as personal transport in the late 1970s. The two cars as befit prototypes differ in the detail of and around the tailgate. One car has a recessed tailgate, while the other has a clamshell arrangement, where the whole tailgate is visible when closed.

The SD1 was intended to be produced in a state-of-the-art extension to Rover's historic Solihull factory alongside the TR7. It was largely funded by the British government, who had bailed BL out from bankruptcy in 1975. Unfortunately this did nothing to improve the patchy build quality that then plagued all of British Leyland. That, along with quick-wearing interior materials and poor detailing ensured that initial enthusiasm soon turned to disappointment.

Initial model and first additions to range

Rover 2300 6-cylinder engine, in situ in SD1

This car was launched on its home market in June 1976 in liftback form only, as the V8-engined Rover 3500: SOHC 2.3 L and 2.6 L sixes followed a year later. The car was warmly received by the press and even received the European Car of the Year award for 1977. Its launch on the European mainland coincided with its appearance at the Geneva Motor Show in March 1977, some three months after the Car of the Year announcement. Dealers had no left-hand drive cars for sale, however, since production had been blocked by a tool makers' strike affecting several British Leyland plants and a "bodyshell dispute" at the company's Castle Bromwich plant. Closer to home, the car and its design team received The Midlander of the Year Award for 1976, because they had between them done most in the year to increase the prestige of the (English) Midlands region.

Poor construction quality was apparent even in the company's press department fleet. The British magazine Motor published a road test of an automatic 3500 in January 1977, and while keen to highlight the Rover's general excellence, they also reported that the test car suffered from poor door seals, with daylight visible from inside past the rear door window frame's edge on the left side of the car, and a curious steering vibration at speed which might (or might not) have resulted from the car's front wheels not having been correctly balanced. Disappointment was recorded that the ventilation outlet directly in front of the driver appeared to be blocked, delivering barely a breeze even when fully open; the writer had encountered this problem on one other Rover 3500, although he had also driven other cars of the same type with an abundant output of fresh air through the vent in question. Nevertheless, in March 1977, Britain's Autocar was able to publish an article by Raymond Mays a famous racing driver and team manager during, in particular, the 1930s, 1950s and 1960s, in which Mays explained why, after driving it for 12,000 miles, he considered his Rover 3500 was "the best car he [had] ever had", both for its many qualities as a driver's car and for its excellent fuel economy even when driven hard. Similar problems persisted until 1980 and were reported in tests of the V8-S version.

In television shows John Steed in The New Avengers and George Cowley in The Professionals both used yellow Rover 3500 models. Although using different registration numbers both were possibly the same car.

[Text from Wikipedia]

Very early and rough 'Fanfare' resin bodyshell, with EFE Y type interior and chassis.

Taken 04/03/19; Following on from snaps of the King and Castle locos inside the STEAM museum, over to Swindon Station and a few snaps of the new Class 800s. The Warship and Westerns replaced the GWR 4-6-0s, they were replaced by the HST125s, which in turn have been replaced by the Class 800s. According to Wikipedia these 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."

TVR Tuscan V6 (1969-71) Engine 2994cc V6 Ford Essex Production 101

Registration Number FWJ 350 J

TVR SET

www.flickr.com/photos/45676495@N05/sets/72157623722776067...

The TVR Tuscan was itroduced in 1967 as the Tuscan V8 (4727cc and 4942cc) and V6 (2994cc) forms, and was the second TVR introduced during the Martin Lilley era,

The V8 was introduced in 1967 powered by a 4727cc V8 Ford Windsor engine simular to that of the Ford Mustang with 271bhp, and a top speed of 155mph. The V8 was redesigned in 1970 as wide body Tuscan V8 (LWB SE) featured a restyled body shell that gave a preview to the upcoming M-series body style. The widebody Tuscan was powered by the larger 302 cu in (4,942 cc) version of the small block Ford V8, with a total of only 10 cars produced. Most of the Tuscan V8s were sold in the United States, with only the occasional vehicle being built with right-hand drive for the home market.

The V6 was launched in mid 1969, to provide a mid range performance car. Powered by a Ford Essex V6 engine of 2994cc (with 138bhp) as used in the Ford Zodiac and Ford Capri 3 litre. The V6 had front disc and rear drum brakes rather than the all round discs of the V8 cars, and used the same narrow bodyshell and chassis as the four-cylinder Vixens. Though it did, , receive the same Salisbury differential as the Tuscan V8 The V6 was not exported to the US due to the Essex engine not meeting US emission requirements, therefore most of the 101 cars produced were RHD for the home market.

The V6 Tuscan was replaced in 1971 by the Vixen 2500. . .

Many Thanks for a fan'dabi'dozi 28,054,500 views

Shot 27:07:2014 at Silverstone Historic Festival REF: 103-487 .

A true household icon, the Triumph Dolomite brought an end to years of ongoing automotive development, and would turn out to be the last traditional Triumph Saloon car before British Leyland destroyed the company.

The Dolomite was, as mentioned, part of an ongoing development scheme that began in 1965 with the Triumph 1300. The scheme was named Project Ajax, and was done to develop a selection of small family saloon cars to replace the Triumph Herald. All of the cars in this range were designed by Giovanni Michelotti, and were powered by a selection of small Triumph engines, ranging from the original 1,296cc to the later 1,493cc powerplant. Triumph were however dissatisfied with the market performance of the 1300; although it had been moderately successful, the higher price and greater complexity meant sales never reached the levels of the simpler and cheaper Herald which preceded it. In an attempt to improve matters, the car was comprehensively re-engineered. Launched in September 1970, the Triumph Toledo was a cheaper and more basic variant of the 1300, but with conventional rear-wheel drive. This new model was assembled alongside the now larger-engined front-wheel drive version (the Triumph 1500) which was launched at the same time as the Toledo.

The Dolomite was a combination of all things implemented on previous Project Ajax creations, a culmination of design methods to create a more upmarket and sporty car. The Dolomite made its debut at the 1971 London Motor Show, but wouldn't go into production for over a year due to strikes at the plant. The Dolomite comprised of a longer bodyshell than the previous 1500, although much of its running gear and rear-wheel drive transmission was carried over from the Toledo. Engines started with a Slant-4 1,854cc engine producing 91hp. Performance was a top speed of 100mph and a 0-60 of 11 seconds. An overdrive gearbox was also made available for fuel economy and relaxed motorway cruising.

The variant that's remembered the most though is the Dolomite Sprint, or more commonly known as the Dolly Sprint. The Sprint was built to compete with the likes of the BMW 2002, and was fitted with a 1,998cc engine with higher capacity carburettors producing 127hp, although it was originally desired to give the car at least 135hp. British Leyland however were able to get 150hp out of a test engine, but the industrial disputes and lack of quality meant that eventually only 125 to 130hp could be a realistic option. The result was a performance of 119mph, and a 0-60 of 8.4 seconds. The original price of the Sprint upon its launch in 1973 was £1,740 (£20,534 today), which put it in good price competitiveness with other cars of similar size.

However, the industrial relations disputes and continued poor quality meant that the Dolly and the Dolly Sprint both suffered heavily in the sales. Between 1972/73 and 1980, only 79,010 Dolomites and 22,941 Dolomite Sprints were built. Attempts at rationalising the range began in 1976, setting the Dolomite Sprint as the top of the range performance model, and the Dolomite 1850HL/1500HL as the luxury versions. This was done to replace the Toledo, which ended production the same year with 113,000 built. Changes as part of rationalisation were minor at best, and even the luxury models suffered heavily at the hands of poor quality. It was rumoured that British Leyland were so ham-fisted with their approach that the wood veneer inside the luxury versions was in fact made up of old floorboards from abandoned houses in the West Midlands, and there'd be every chance you'd get a splinter off them!

Sadly the poor old Dolomite's story had to come to a close, and in 1980 following falling sales, the car was replaced by the Triumph Acclaim, a badge engineered version of the Honda Ballade. Although these cars were initially malaigned for their fragile nature, today they're very much modern day cult cars with quite a strong following. Most people consider the Dolly and the Dolly Sprint the last true Triumphs before the Acclaim changed the game, but sadly the fragile nature of the Dolly's means that only about 1,300 of them are left, with only 300 to 400 Sprints.

The Dolly Sprint however did return to the frontline in 2008 as part of Top Gear's British Leyland challenge, being driven by Richard Hammond. Sadly the poor Dolly didn't fare well against James' Princess 2200, but certainly got away better than Jeremy's Rover SD1!

Often described as Britain's first supercar (a little late, Italy beat us to that like 5 years earlier!), but the Aston Martin V8 and the derivative Vantage helped keep the company afloat during those dark years of bankruptcy and recovery, even though it almost committed corporate suicide by developing the overly complicated Lagonda!

The original Aston Martin V8 was a coupé manufactured from 1969 to 1989, built to replace the Aston Martin DBS, a more angular car that killed off the DB6, and by extension the iconic design that had eminated through the James Bond DB5. As with all traditional Aston Martins, it was entirely handbuilt, with each car requiring 1,200 manhours to finish. Aston Martin's customers had been clamouring for an eight-cylinder car for years, so Aston Martin designed a larger car. The engine was not ready, however, so in 1967 the company released the DBS with the straight-six Vantage engine from the DB6. Two years later, Tadek Marek's V8 was ready, and Aston released the DBS V8. With the demise of the straight-six Vantage in 1973, the DBS V8, now restyled and called simply the Aston Martin V8, became the company's mainstream car for nearly two decades. It was retired in favour of the Virage in 1989.

The Aston Martin V8 Vantage on the other hand took the original bodyshell of this 60's sports coupé, and completely re-engineered it to create something that was not of this earth! The first series had 375hp, and series specific details such as a blanked bonnet vent and a separate rear spoiler, of which 38 of these were built.

The Vantage name had previously been used on a number of high-performance versions of Aston Martin cars, but this was a separate model. Although based on the Aston Martin V8, numerous detail changes added up to a unique driving experience. One of the most noticeable features was the closed-off hood bulge rather than the open scoop found on the normal V8. The grille area was also closed off, with twin driving lights inserted and a spoiler added to the bootlid.

Upon its introduction in 1977, the car's incredible speed and power was taken up with acclaim, and, as mentioned, was dubbed 'Britain's first supercar', with a top speed of 170 mph top speed. Its engine was shared with the Lagonda, but it used high-performance camshafts, increased compression ratio, larger inlet valves and bigger carburettors mounted on new manifolds for increased output. Straight-line performance was the best of the day, with acceleration from 0–60 mph in 5.3 seconds, one-tenth of a second quicker than the Ferrari Daytona.

The Oscar India version, introduced in late 1978, featured an integrated tea-tray spoiler and smoother bonnet bulge. Inside, a black leather-covered dash replaced the previous walnut. The wooden dashboard did find its way back into the Vantage during the eighties, giving a more luxurious appearance. The Oscar India version also received a slight increase in power, to 390hp. This line was produced, with some running changes, until 1989. From 1986 the engine had 403hp.

1986 saw the introduction of X-Pack was a further upgrade, with Cosworth pistons and Nimrod racing-type heads producing 403hp. A big bore after-market option was also available from Works Service, with 50mm carbs and straight-through exhaust system giving 432hp, the same engine as fitted to the limited-edition V8 Zagato. 16-inch wheels were also now fitted. A 450hp 6.3L version was also available from Aston Martin, and independent manufacturers offered a 7L version just to up the ante.

In 1986, the Vantage had its roof cut off into what would become the convertible Vantage Volante, basically identical. In 1987 The Prince of Wales took delivery of a Vantage Volante, but at his request without the production car's wider wheelarches, front air dam and side skirts. This became known as the 'Prince of Wales Spec' (or POW) and around another 26 such cars were built by the factory.

The Prince was obviously very specific about his motorcars!

304 Series 2 Vantage coupés were built, including 131 X-Packs and 192 Volantes. Volante's are often considered the most desirable of the Aston Martin V8 Vantage range. In all, 534 V8 Vantages were constructed during its 12 year production run, with the car being replaced in 1989 by the Aston Martin Virage, as well as a new generation V8 Vantage which remained somewhat faithful to the original design of the 60's (if not a little more bulky) and was the last Aston Martin design to incorporate a traditional style before changing to the style laid down by the DB7 in 1993.

However, the Vantage did find its way into movie fame as the first Aston Martin used in a James Bond movie since the DBS used in On Her Majesty's Secret Service in 1969. In 1987's 'The Living Daylights' (the first film to star Timothy Dalton as 007), Bond was treated to Q-Branch's Aston Martin V8 Vantage, complete with missiles, lasers to separate pesky Lada's from their chassis, and a heads-up display to assist in warding off evildoers. It also came with a 'Winter Pack', which included skis, a rocket propulsion and spiked tyres for better grip. The car however met an unfortunate demise after getting stuck in a snowdrift, forcing Bond to activate the self-destruct, engulfing the car in a fiery explosion. But at least everyone's favourite secret agent had finally been reunited with his faithful Aston Martin once again!

There is some slight incongruity with the film though, as at the beginning of the movie, the car is a convertible Volante, yet for the rest of the movie it's a hardtop regular Vantage. This confused me somewhat, or perhaps whilst Bond had the car shipped he had a roof welded on in the meantime!

Today there are a fair number of Vantages roaming the countryside, their popular design, pedigree Bond Car status and sheer raw power keeping them truly afloat. In fact, these cars are much more prominent than the Virage that replaced it, of which you barely see any!