Haynes Breakfast Club – February 2022

Now firmly established in the events calendar, the monthly Breakfast Club meeting at the Haynes Museum, just outside Sparkford in Somerset is usually a sell-out event. A lot of work was done on-site during the lockdown periods to provide far more surfaced car-parking, but even so this new, large area generally fills up pretty quickly one the gates are open, to those who pre-booked tickets. During 2021, the organisers decided to add an extra dimension to the event and to have a theme, with cars that comply being directed to what they call the “paddock”, a separate area to the side of the museum, as opposed to the area around the back where everyone else parks. Inevitably some themes are more popular than others. For the February 2022 meet, they announced the theme as “French”. I rather assumed that this would mean a lot of recent French performance hatches, but that is not the majority of what was there. Read on to see just which French rarities turned up and indeed what else was there on a February morning which was dry during the event, but with recent rain fail meant underfoot was wet and most attendees had driven on rather grimy roads to get there. I certainly had!

ABARTH

Slightly surprisingly, there was only one Abarth here, and I did not recognise the car, so not sure as to who the owner might be. It was a 595 model from what is known as the Series 3. Having used the legendary 695 badging from the 1960s on the Tributo cars, at the 2012 Geneva Show, Abarth dusted off the 595 name that had been used on the less powerful of the Nuova 500 based cars of the same generation, and created two new versions which we should think of as Series 2 cars, the 595 Turismo and Competizione, both of which could be bought in either closed or open top C guise, with either the 5 speed manual or robotised automated gearshifts. Both models had the 160 bhp engine as standard. Effectively they were a replacement for the Esseesse kit, and it meant that the cars were produced complete at the factory, rather than needing the dealer to undertake the upgrade (and the associated paperwork), though Abarth did not withdraw the Esseesse kits from the market for some while. Turismo, as the name suggests was aimed slightly less extreme in intent, featuring standard leather upholstery, upgraded dampers and climate control, Xenon headlights and Alutex interior details. The sportier Abarth 595 Competizione replaced the leather seats with Sabelt cloth sport seats and Alutex with aluminium, while adding p-cross-drilled brakes and the Record Monza dual-mode exhaust. Series 3 cars came in 2014 with some minor trim and equipment changes and most notably a new TFT instrument cluster.

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ALFA ROMEO

Having a rather short production life was the GTA version of the 147. Launched in 2002. this car was intended to compete with the most sporting Golf and Focus models of the day. as well as injecting more potency into a range which always seemed like it needed more power. Fitted with a 3.2 V6 engine which produced 247 bhp, the 147GTA was the most powerful hot hatch available at the time, and the modifications to the body, including lower sills and wider wheel arches, if anything, made it look even better rather than endowing it with the sort of “after market look” that can afflict some high end performance versions of regular family cars. Performance figures were impressive, with the car able to achieve a top speed of 153 mph. It had a widened body by 15 mm at each side to accommodate the 225/45R17 tyres. Most models had a 6-speed manual transmissions; whilst a smaller number of other models used the semi automatic Selespeed system. Production ran through to 2004 and in total 5,029 147 GTAs were built, 1004 of which were Selespeeds. Only around 300 came to the UK, so this was never a common sighting on British roads

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The Alfa Romeo MiTo (Type 955) is a front-wheel drive, three-door supermini designed by Centro Stile Alfa Romeo and presented in 2008 at Castello Sforzesco in Milan with an international introduction at the British Motor Show in 2008. The new car was provisionally named the “Junior”. In November 2007, Alfa Romeo launched a European public naming competition; the winner from each country to win an Alfa Romeo Spider or an Alfa Romeo mountain bike. The winning name was “Furiosa”, which scored well in Italy, France, United Kingdom and Germany, but not in Spain. In 2008, Alfa Romeo announced “MiTo” as the official name, a portmanteau of Milano (Milan) & Torino (Turin), because it was designed in the former and was assembled in the latter. The name is also a play on the Italian word “mito”, meaning “myth” or “legend”. The MiTo is front-wheel drive, with a system allowing the driver to choose three driving settings: Dynamic, Normal, and All-Weather. The system, marketed as “Alfa DNA,” tunes the behavior of the engine, brakes, steering, suspension and gearbox. The MiTo also features LED tail lights and 250-litre (8.8 cu ft) of luggage space. The MiTo also features a Q2 electronic differential on the front wheels, which is active with the DNA switch in Dynamic position, and allows for faster and tighter cornering without loss of traction. In 2010 a new transmission for the MiTo was unveiled at the 2010 Geneva Motor Show, the six-speed TCT which is produced by Fiat Powertrain Technologies in Verrone (TCT Dual Dry Clutch Transmission). Magneti Marelli delivers the control system which integrates BorgWarner’s hydraulic actuation module into its own power and transmission control units. It can handle torque inputs of up to 350 N⋅m (258 lbf⋅ft) In Geneva was also unveiled Blue&Me–TomTom, this new system integrates TomTom navigation to the Blue&Me infotelematic system. At its launch the MiTo featured low-displacement turbocharged petrol and diesel engines. Also, a power limited 78 bhp naturally aspirated engine variant is produced to meet the new Italian legislation for young people. MiTo got new electro-hydraulic valve control system Multiair engines from September 2009. MultiAir engines will increase power (up to 10%) and torque (up to 15%), as well as a considerable reduction in consumption levels (up to 10%) and CO2 emissions (up to 10%), of particulates (up to 40%) and NOx (up to 60%). This new engine is available with 104 bhp,133 bhp and 168 bhp power ratings. All multiair versions have start-stop system as standard. In October 2009 was unveiled a dual fuel MiTo version, this version can run with LPG (Liquefied petroleum gas) or petrol, with this engine MiTo has range of 1,200 km (750 miles). The LPG version is made in collaboration with Landi Renzo. In Summer 2010 Alfa introduced the Dual Dry Clutch Transmission called Alfa TCT ( i.e. Twin Clutch Transmission ). From model year 2011 the start-stop system came as standard on all versions. At the 2011 Frankfurt Motor Show, AR introduced two new engines for the MiTo – The 0.9 L I2 TwinAir and a new low emission 85 PS version of the 1.3 JTD diesel engine. The Quadrifoglio Verde (green four-leaf clover) has traditionally been the highest line of Alfa Romeo models. The car (see Alfa Romeo in motorsport article for the history of this emblem) version of Mito was presented at the 2009 Frankfurt Motor Show. The QV version has the new 1.4 litres (1,368 cc) Turbo Multiair inline-four engine 168 bhp at 5500 rpm and 250 Nm (184 lb/ft) of torque at 2500 rpm, with newly engineered suspension, steering and new six-speed C635 gearbox developed by Fiat Powertrain Technologies (FPT). Its specific output of 124 PS per litre was highest in its segment at that time. The new multiair technology allows fuel consumption of 6 l/100 km (47 mpg) in EU combined driving and CO2 emissions of 139 g/km. QV had bigger 305 mm front brake discs and exclusive 18″ alloy wheels as standard and Sabelt carbon fibre backed bucket seats as an option. From 2014 QV was now available with TCT robotised gearbox which brought down the 0–100 km/h time to 7.3 s. With the 2016 facelift, the QV was renamed as the Veloce. For model year 2014, the MiTo got a new 105 PS 0.9 L Turbo TwinAir engine, new chrome-plated grille, new Anthracite grey colour and new burnished front light clusters. The car interior was also updated with new upholsteries, three new dashboards looks, as well as the new Uconnect 5.0 infotainment systems. The engine range now consists two turbo diesel engines (the updated E5+ 85 PS 1.3 L JTDM and the 120 PS 1.6 L JTDM) and five petrol engines: the 70 PS 1.4, the 78 PS 1.4, the 135 PS 1.4 MultiAir Turbo (with manual or Alfa TCT Dual Dry Clutch Transmission) and the 170 PS 1.4 MultiAir Turbo. The range has also 120 HP 1.4 LPG Turbo option. Debuting at the 2016 2016 Geneva Motor Show, the revised Mito featured a facelifted front fascia with a new updated brand logo and new lettering. Trim line up was changed to Mito, Super and Veloce. A new body colour and new rims designs also became available. The previous MiTo QV became the Mito Veloce, available with 170 PS engine and TCT transmission. The MiTo was marketed across a single generation from 2008 to 2018, sharing the Fiat Small platform with the Fiat Grande Punto. Production reached 293,428 at FCA’s Mirafiori plant.

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Most numerous Alfa here was a current model, the Giulia, of which there were several examples, not all of which were the top of the range Quadrifoglio car.

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ALVIS

Conceived in 1956, the TD21 was quite a departure from the lovely, but rather “post-war” TC21. However, on its arrival in dealer’s showrooms, it quickly set about changing established views of the Alvis. Following the loss of coachbuilders Mulliner and Tickford (who were now tied to other companies), Alvis turned to the Swiss coachbuilder, Graber whose tradition of producing sleek, modern and very elegant saloons and dropheads proved a good fit in terms of the way Alvis saw their future. Graber first presented this new style to the Alvis board in late 1957 who were very impressed with the Swiss company’s flowing design and commissioned the body to be built on the new TD chassis. To ease logistical problems, Park Ward of London, built the Graber designed bodies in the UK. The Alvis Three Litre TD21 Series I was produced between the end of 1958 and April 1962, and was powered by the TC’s 2993 cc engine, uprated by 15bhp to 115 as a result of an improved cylinder head design and an increased compression ratio. A new four-speed gearbox from the Austin-Healey 100 was incorporated, while the suspension remained similar to the cars predecessor, independent at the front using coil springs and leaf springs at the rear, but the track was increased slightly and a front anti-roll bar added. From 1959 the all drum brake set up was changed to discs at the front retaining drums at the rear. In April 1962, the car was upgraded with four wheel Dunlop disc brakes in place of the disc/drum combination, aluminium doors, a five-speed ZF gearbox and pretty recessed spotlights either side of the grille, these improvements coming together to create the TD21 Series II. The car would be updated in 1963 to create the TE21, with its distinctive dual headlights proving a recognition point, and the later TF21, continuing in production until 1967 at which point Alvis ceased car manufacture.

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AUDI

Audi released the A3-derived Audi S3 in 1999, only as a three-door hatchback. The S3 had an inline-four 20v 1.8 litre turbocharged petrol engine. Early models (1999–2001) had 210 PS (207 bhp). Later models (2001–2003) had variable valve timing and 225 PS (222 bhp). The engine had a maximum of 280 N⋅m (210 ft⋅lbf) torque. This was the first time a small four-cylinder engine had been used in an Audi S-series car. Although dubbed “quattro”, the S3 uses a different four-wheel drive system. The Haldex Traction coupling adjusts the bias of torque distribution from the front to rear axle as grip requirements change – most of the time it operates as a front-wheel drive. The S3 was sold in Europe, Japan, Mexico, South Africa, Australia, and New Zealand. The S3 was given a facelift in 2002, where it was given one-piece headlights/indicator units, different front wings, rear lights clusters, and some minor upgrades to interior trim. Standard features include xenon HID headlamps with high pressure washers and auto levelers, front fog lamps, 17″ “Avus” alloy wheels with 225/45R17 tyres, electrically adjustable Recaro leather seats, climate control, alarm and electronic stability control with traction control. Options include a Bose sound system, boot/trunk or in-dash mounted 6-disc CD changer, metallic paint, 18-inch 9-spoke RSTT wheels, glass sunroof, centre arm rest, privacy glass (B-pillar backwards), auto-dimming rear-view mirror, parking assist, luggage net, heated front seats, cruise control, aluminium door mirror casings and part leather/Alcantara (blue/silver/yellow) combination seat coverings. These items are standard in some export markets.

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In August 2006, Audi introduced the second generation S3. Offered in three- and five-door body styles, the second generation—Typ 8P—S3 is powered by a modified and uprated Volkswagen Group-sourced 2.0-litre turbocharged FSI petrol engine, with a maximum output of 265 PS (261 bhp). As with all Audi S models, the design was done in-house by quattro GmbH. The engine features uprated high-performance pistons, revised boost/fuel mapping, increased turbocharger size (KKK K04) and larger intercooler. The most powerful form of this engine, and quattro four-wheel drive, makes for a 0–100 km/h (0–62 mph) time of 5.5 seconds, and an electronically limited top speed of 250 km/h (155 mph). Audi offers both six-speed manual and six-speed S-Tronic automatic transmissions with the S3. The spring ratings and dampers were revised, along with the body kit. Like its predecessor, although badged a “Quattro” model, the S3 does not employ a Torsen centre differential (as in other common Quattro models), but instead uses the Swedish Haldex Traction system in its on-demand four-wheel drive transmission, due to the transverse engine layout. Production ceased in 2012 with the arrival of the third generation A3 range.

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The styling of the Audi TT began in the spring of 1994 at the Volkswagen Group Design Center in California. The TT was first shown as a concept car at the 1995 Frankfurt Motor Show. The design is credited to J Mays and Freeman Thomas, with Hartmut Warkuss, Peter Schreyer, Martin Smith and Romulus Rost contributing to the interior design. A previously unused laser beam welding adaptation, which enabled seamless design features on the first-generation TT, delayed its introduction. Audi did not initially offer any type of automatic transmission option for the TT. However, from 2003, a dual clutch six-speed Direct-Shift Gearbox (DSG) became available, with the United Kingdom TT variants becoming the world’s first user of a dual clutch transmission configured for a right-hand drive vehicle, although the outright world first for a road car equipped with a dual clutch transmission was claimed earlier by a Volkswagen Group platform-mate, the left hand drive Volkswagen Golf Mk4 R32. The Audi TT takes its name from the successful motor racing tradition of NSU in the British Isle of Man TT (Tourist Trophy) motorcycle race. NSU marque began competing at the Isle of Man TT in 1907 with the UK manager Martin Geiger finishing in fifth position in the single-cylinder race. The 1938 Isle of Man Lightweight TT race was won by Ewald Kluge with a 250 cc supercharged DKW motor-cycle and the DKW and NSU companies later merged into the company now known as Audi. The TT name has also been attributed to the phrase “Technology & Tradition”. The production model (internal designation Type 8N) was launched as a coupé in September 1998, followed by a roadster in August 1999. It is based on the Volkswagen Group A4 (PQ34) platform as used for the Volkswagen Golf Mk4, the original Audi A3, the Škoda Octavia, and others. The styling differed little from the concept, except for slightly reprofiled bumpers, and the addition of rear quarterlight windows behind the doors. Factory production commenced in October 1998. Early TT models received press coverage following a series of high-speed accidents and the related fatalities which occurred at speeds in excess of 112 mph (180 km/h) during abrupt lane changes or sharp turns. Both the coupé and roadster variants were recalled in late 1999/early 2000, to improve predictability of the car’s handling at very high speeds. Audi’s Electronic Stability Programme (ESP) or Anti Slip Regulation (ASR) and rear spoiler were added, along with modifications to the suspension system. All changes were incorporated into subsequent production. Mechanically, the TT shares an identical powertrain layout with its related Volkswagen Group-mates. The TT uses a transversely mounted internal combustion engine, with either front-wheel drive or ‘quattro four-wheel drive’ available as an option. It was first available with a 1.8-litre inline four-cylinder 20-valve turbocharged engine in two states of DIN-rated power outputs; 180 PS (178 bhp) and 225 PS (222 bhp). The engines share the same fundamental design, but the 225 PS version features a larger K04 turbocharger (180 PS version came with a smaller K03), an additional intercooler on the left side (complementing the existing right-side intercooler), larger 20mm wrist-pins, a dual tailpipe exhaust, intake manifold with inlet on driver’s side, and a few other internals – designed to accommodate the increase in turbo boost, from roughly 10 pounds per square inch (0.7 bar) peak, to 15 pounds per square inch (1.0 bar). Haldex Traction enabled four-wheel drive, ‘branded’ as “Quattro” was optional on the 180 engine, and standard on the more powerful 225 version. The original four-cylinder engine range was complemented with a 3,189 cc VR6 engine rated at 250 PS (247 bhp) and 320 Nm (236 lb/ft) of torque in early 2003, which came as standard with the quattro four-wheel-drive system. In July 2003, a new six-speed dual clutch transmission – dubbed the Direct-Shift Gearbox (DSG), which improves acceleration through much-reduced shift times, was offered, along with a stiffer suspension. The second generation TT was launched in 2006.

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The second generation of the R8 (model code: Type 4S) was unveiled at the 2015 Geneva Motor Show and is based on the Modular Sports System platform shared with the Lamborghini Huracan. The development of the Type 4S commenced in late 2013 and was completed in late 2014. Initial models included the all-electric e-Tron and the V10 5.2 FSI along with the V10 plus. Unlike its predecessor, there was no manual transmission available and the entry-level V8 trim was also dropped. In 2016, the convertible (Spyder) variant was added to the line up which was initially available in the base V10 trim. In mid-2017, the high performance V10 plus Spyder was added to the range. A rear-wheel-drive model called the R8 RWS was introduced. In 2018, the R8 received a mid-cycle refresh with mechanical and exterior changes. The newer and more aggressive design language carried over from famous Audi models of the past and it’s appearance is slightly more angular up front. Some of the aerodynamic features such as the front aeroblades are shared with the Lamborghini Huracàn. The refreshed model had substantial performance improvements over its predecessor. The base R8 gets a power boost from 532 hp to 562 hp, while the V10 Plus was renamed V10 Performance Quattro and the engine saw a power increase by 10 bhp, now up to 612 bhp. The Audi R8 e-tron (2015) was an all-electric version of the second-generation R8. Unlike the earlier 2010 prototype based on the first-generation R8, it actually entered production, but only on a small scale, with less than 100 units sold. It featured a 92-kWh battery.

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AUSTIN

For the ADO71 cars. 29th March 1975 was the launch date. The cars had been eagerly awaited, as a replacement for the venerable “Land Crab”. This was an era when there were very few spy photos of prototypes published (or leaked) unlike today, so it was quite a shock to discover the bold new wedge styling that Harris Mann had proposed on the new car. I do recall – and now I can confess – getting hold of a couple of brochures for the car some weeks before launch, as my parents were in the process of buying a new Mini, and I spotted them on the shelf in the dealer’s office. At launch, the car was called the 18-22 Series, and came in Austin, Morris and Wolseley versions, with the 1798cc B Series and 2226cc E Series engines carried over. In this guise, the model last only until September before the range was revised and a new name was adopted, Princess. Not surprisingly, there are very few of the pre-Princess cars still left. As well as an Austin 1800HL, there was also one of the top of the range Wolseley models here. Produced for just 6 months, there never were many of these cars made. In September 1975, the model was rechristened the Princess, and was sold with the same choice of 1800 or 2200cc engines, in HL and HLS trim. Princess 2 arrived in the summer of 1978 when the venerable B Series engines were replaced by the all new O Series unit, offered in 1700 and 2000cc guises. Minor changes to the trim and decor were made at this time

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“A British car to beat the world”. So read the billboards when the Austin Metro was revealed in October 1980. We had waited a long time for this car. There were many false starts, with thoughts first turning to how to replace the Mini going back to the late 1960s, but for various reasons, every effort had been cancelled. Fortunately, that extended to the ADO88 prototype which got to quite an advanced state of development in 1978, but which received less than favourable feedback at customer clinics. A hasty redesign was conducted. Despite carrying over the A Series engines, albeit in modified A+ guise, as BL had nothing else suitable and no money to develop an alternative, and that meant the 4 speed in-sump gearbox came with it, the little Metro was an immediate hit. It looked good, with pert, modern styling, and was practical with a large hatchback, and some innovative ideas on how to maximise the use of space. This was a roomy car that Britain could indeed be proud of. That a young lady who came to prominence in the months following launch, the future Princess Diana, could be seen driving around in one probably helped still further. Five models were available at launch: 1.0, 1.0L, the economy-oriented 1.0 HLE, 1.3S and 1.3 HLS, and the cars were available in a wide range of bright and attractive colours, including a greater percentage of metallic paints than were typically offered to buyers of cars in this class. My parents bought a 1.0L in the summer of 1983, as a replacement for our Mini, and the car was a massive improvement in just about every respect. Unlike previous BL cars, this model was not dogged with build quality and reliability issues, though, sadly it did have the same propensity to rust as they had done, but it took several years before that would become obvious. Before that happened, the range was expanded with the introduction of cheaper a model using AP’s clever 4 speed Automatic gearbox, cheaper City and City X models, a top spec Vanden Plas and then the sporting MG version. There was a 1.3 HLE model here, in the post 1984 facelift which saw the introduction of 5 door models as well as cosmetic and equipment changes across the range.

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AUSTIN HEALEY

Donald Healey had been producing a range of expensive sports cars from the 1940s, cars such as the Silverstone, the Abbott and the Farnham. For the 1952 London Motor Show, he produced a new design, which was called the Healey Hundred, based on Austin A90 mechanicals, which he intended to produce in-house at his small car company in Warwick. It was one of the stars of the 1952 Show, and it so impressed Leonard Lord, the Managing Director of Austin, who was looking for a replacement to the unsuccessful A90. that Lord struck a deal with Healey on the spot, to build it in quantity. Bodies made by Jensen Motors would be given Austin mechanical components at Austin’s Longbridge factory. The car was renamed the Austin-Healey 100, in reference to the fact that the car had a top speed of 100 mph. Production got under way in 1953, with Austin-Healey 100s being finished at Austin’s Longbridge plant alongside the A90 and based on fully trimmed and painted body/chassis units produced by Jensen in West Bromwich—in an arrangement the two companies previously had explored with the Austin A40 Sports. By early 1956, production was running at 200 cars a month, 150 of which were being sold in California. Between 1953 and 1956, 14,634 Austin-Healey 100s were produced, the vast majority of them, as was the case for most cars in this post war era, going for export. The car was replaced by an updated model in 1956, called the 100-6. It had a longer wheelbase, redesigned bodywork with an oval shaped grille, a fixed windscreen and two occasional seats added (which in 1958 became an option with the introduction of the two-seat BN6 produced in parallel with the 2+2 BN4), and the engine was replaced by one based on the six-cylinder BMC C-Series engine. In 1959, the engine capacity was increased from 2.6 to 2.9 litres and the car renamed the Austin-Healey 3000. Both 2-seat and 2+2 variants were offered. It continued in this form until production ceased in late 1967. The Big Healey, as the car became known after the 1958 launch of the much smaller Austin-Healey Sprite, is a popular classic now. You come across the 3000 models more frequently than the 100s, as they accounted for more than 60% of all Big Healey production.

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BMW

BMW E21 is the first generation of the BMW 3 Series compact executive car, produced by from 1975 to 1981. Most E21s were sold as 2-door compact sedans, however a Baur cabriolet was also available. Under the direction of its 51% percent shareholder, Herbert Quandt, BMW decided upon a replacement for their aging 02 Series. Paul Bracq, Director of Design at BMW from 1970 to 1974, is credited with setting the design direction of the E21. In July 1975, BMW’s Board of Management first presented this new model series in the Munich Olympic Stadium for public appraisal. The frontal view of the new car was dominated by the BMW trademark kidney grille standing out clearly from the radiator cover. The styling of the new car bore a resemblance to the BMW E12 5 Series. The wedge shape of the two-door model was distinctive, extending all the way to the unusually high rear end. In response to criticism of the tail design, a black plastic trim panel between the tail lights was added.[citation needed] Like many other BMW models, the C-pillar of the E21 features a Hofmeister kink. The cockpit design of the E21 marked the introduction of a new design concept, with the centre console and central dashboard area angled towards the driver. This feature has become part of BMW’s interior design philosophy for many years. As a sign of passive safety, all edges and control elements within the interior were rounded off and padded. The suspension incorporated rack and pinion steering and MacPherson strut suspension at the front, and semi-trailing arm type independent suspension at the rear. The rear suspension design causes camber changes, which can introduce “snap oversteer” at the handling limits, and the car was castigated repeatedly for this (now, of course, the press would shout in joy about such an attribute! The power assisted brakes were discs on the front wheels, while the rear wheels had drum brakes. Initially, a Getrag four-speed manual was the standard transmission fitment. Five-speed overdrive Getrag gearboxes were fitted as standard in 1980, but close ratio ‘sport’ gearboxes were available at the car’s release as an option. Alternatively, purchasers could opt for the ZF 3 HP-22 three-speed automatic transmission. At the E21’s release, three models were available: with 316 (1.6-litre), 318 (1.8-litre) and 320 (2.0-litre) versions of the BMW M10 4-cylinder engine. To differentiate between models, the 320 model came with dual headlights, while the 316 and 318 had single headlights. The fuel-injected 320i was introduced at the end of 1975. It featured the M10 4-cylinder engine with Bosch K-Jetronic fuel injection, and a limited slip differential was available as an option. At the 1977 International Auto Show in Frankfurt, BMW unveiled its new variants of the E21, featuring the new straight-6 M20 engines (which were initially called “M60”). BMW had invested DM 110 million the M20 engine series. The 4-cylinder 320 model was replaced with the 320/6, featuring a 2.0 version of the M20 engine. The 323i model was introduced, featuring 2.3 litre with 141 hp, which gave the 323i a top speed of 200 km/h (124 mph). The braking system was also upgraded, with the 323i featuring disc brakes on all wheels. Options include power steering, a 5-speed close-ratio ‘dogleg’ sport gearbox, and 25% limited slip differential. For the 1980 model year, the four-cylinder models were upgraded: the 1.8 litre carburetted M10 unit was revised to produce 89 hp and entered the market in the updated 316, while a fuel-injected version of the 1.8 litre M10 was introduced in the 318i model (which replaced the carburetted 318 as the mid-range model). The 320is model (USA only) was released in 1980 using a 1.8 litre version of the M10. The “S Package” featured Recaro sport seats, a modified dash with no air conditioning (A/C could be added by the dealer), upgraded suspension components that included a rear anti-roll bar and a larger front anti-roll bar, a 5-speed transmission and limited-slip differential, cross-spoke alloy wheels, an upgraded tool kit, a dual operation manual sunroof, an AM/FM Blaupunkt radio with cassette player, fog lights, a 3-spoke leather-wrapped steering wheel and leather shift knob, a front air dam, a “delete” of the alphanumeric 320i markers on the rear boot lid and a limited colour palate of white, silver or black. Just 2,500 320is were produced. In 1981, the economy model 315 was introduced as a reaction to the second “oil crisis” in late 1979. More spartan than the other E21 models, it was the last E21 to be built and shared production with the E30.

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The BMW E28 was produced from 1981 to 1988 and replaced the E12 5 Series. The E28 has a self-supporting body that is welded to the body platform. The passenger cell is a safety passenger cell with deformation elements both in the front and rear of the vehicle. Unlike its E12 predecessor and E34 successor, the E28 has a rear-hinged bonnet. The boot has a volume of 460 litres. Most models have a fuel tank capacity of 70 L with some models having a smaller tank of 63 litres. The kerb weight is 1,140–1,410 kg (2,513–3,109 lb). Cruise control, an ‘on-board computer’ (to display trip information) and a “check control” panel (to alert the driver about fluid levels and lighting faults) were introduced to the 5 Series on the E28. The glazing is made of single-pane safety glass, the windscreen has laminated glass. As part of developing the air-conditioning system for the E28, several of the BMW engineers in charge of this program drove a previous generation E12 5 Series during the middle of summer in Texas. The E12 528i was painted black with a black interior, and driven 500 mi (805 km) in one day.The styling was developed under BMW’s chief designer Claus Luthe, with development of the E28 beginning in 1975. At the time that BMW was designing the E28, the company had only one computer, which was used for payroll management and spare parts logistics. Wolfgang Matschinsky and his team borrowed that computer to perform the calculations necessary to develop the new drivetrain and chassis. This was due to the fact that the addition of an ABS system necessitated a redesign from the previous model due to excessive vibrations under heavy braking. The four models available at the launch of the E28 were the 518, 520i, 525i and 528i, with the 518 using a straight-four petrol engine and the other three models using a straight-six petrol engine. Over the course of the E28 model, the following models were added: the 524d and 524td using diesel engines, the 518i (a fuel-injected version of the 518), the 525e/528e as fuel-economy models, and the upper-specification 533i, 535i, M535i, and M5 models. Production ceased at the end of 1987 in readiness for the E34 generation. A total of 722,328 cars were built.

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The BMW E30 is the second generation of BMW 3 Series, which was produced from 1982 to 1994 and replaced the E21 3 Series, and was the car which really saw the popularity of the 3 Series increase dramatically. . Development of the E30 3 Series began in July 1976, with styling being developed under chief designer Claus Luthe with exterior styling led by Boyke Boyer. In 1978, the final design was approved, with design freeze (cubing process) being completed in 1979. BMW’s launch film for the E30 shows the design process including Computer-aided design (CAD), crash testing and wind-tunnel testing. The car was released at the end of November 1982. Externally, the E30’s appearance is very similar to twin headlight versions of its E21 predecessor, however there are various detail changes in styling to the E30. Major differences to the E21 include the interior and a revised suspension, the latter to reduce the oversteer for which the E21 was criticised. At launch, the car had a 2 door style like its predecessor and just four engines, all of them petrol: the 316 and 318 four cylinder units and the 320 and 323i 6 cylinders. This last was soon upgraded to a 2.5 litre unit. Diesel models were added during the 80s and there was an all-wheel drive 325iX option for continental European markets. In addition to the 2 door saloon and Baur convertible body styles of its E21 predecessors, the E30 became available by early 1984 as a four-door sedan and later a five-door station wagon (marketed as “Touring”). The Touring body style began life as a prototype built by BMW engineer Max Reisböck in his friend’s garage in 1984 and began production in 1987. The factory convertible version began production in 1985, with the Baur convertible conversions remaining available alongside it. Following the launch of the E36 3 Series in 1990, the E30 began to be phased out.

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Development of the E36 began in 1981 and the exterior design was heavily influenced by aerodynamics, specifically the overall wedge shape, headlight covers and smaller wing mirrors. The lead designers were Pinky Lai and Boyke Boyer. The production version of the E36 was launched in October 1990, with press release in November and market launch in early 1991. The initial models were of the four-door sedan body style, and these were soon followed by the coupe, convertible and Touring, to replace their equivalent E30 generation cars. The early models had a mixed reception, with many feeling that the build quality was not as good as previously and the grey plastic bumpers drew particular criticism, but BMW steadily evolved the car to make among the best available in its class and sales rocketed still further beyond E30 levels. The number of engines offered during the model’s life was greater than ever before, and this was the first 3 Series to be available with a six-speed manual transmission (in the 1996 M3), a five-speed automatic transmission and a four-cylinder diesel engine. The multi-link rear suspension was also a significant upgrade as compared to the previous generations of the 3 Series. All-wheel drive was not available for the E36, unlike the previous (E30) and successive (E46) generations. Following the introduction of its successor, the E46 3 Series in 1998, the E36 began to be phased out and was eventually replaced in 1999.

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The BMW E34 is the third generation of the BMW 5 Series, which was produced from November 2, 1987 until 1996. Initially launched as a sedan in January 1988, the E34 also saw a “Touring” station wagon (estate) body style added in September 1992, a first for the 5 Series. BMW replaced the E34 with the E39 5 Series in December 1995, although E34 Touring models remained in production until June 1996. Development ran from July 1981 to early 1987, with the initial design proposal penned by Ercole Spada in 1982. Under the guidance of chief designer Claus Luthe, BMW based much of the design on the E32 7 Series. Following Spada’s departure from BMW and styling approval in 1983, J Mays finalized the design for production in mid-1985. Special attention was paid to aerodynamics, with the E34 basic sedan having a drag coefficient of 0.30. Series production began in November 1987.In December 1987, the E34 sedan was unveiled to the global press. The base model, available only in Europe, was the petrol-powered four-cylinder 518i. Only available with a 5-speed manual transmission, a total of 53,248 cars were produced. The next petrol model up was the six-cylinder 520i, which began production in January 1988. It was initially powered by the BMW M20 single overhead camshaft engine, which was replaced by the BMW M50 double overhead camshaft engine in 1990. The 520i was the second most popular E34 model globally, with 426,971 units produced. The 525i was the most popular E34 model globally with 434,549 units produced. As per the 520i, the 525i initially used the M20 engine, which was replaced by the M50 engine in 1990. A rare E34 model is the petrol-powered six-cylinder 525iX, of which only 9,366 cars were produced. The 525iX was the first all-wheel drive 5 Series, and the only all-wheel drive model in the E34 range. It was powered by the BMW M50 engine and was the first 5 Series to use a rack and pinion steering system. There are two versions of the E34 530i: an inline-six model produced from 1988 to 1990, and a V8 model produced from 1993 to 1995. The earlier model was one of the last applications of the BMW M30 inline-six engine. The V8 version, which replaced the six-cylinder 535i in the lineup, was powered by the new BMW M60 V8 engine and was available with a 5-speed manual or 5-speed automatic transmission. Initially, the V8 models were differentiated from other models by the wide grill; in 1994 the wide grill became available on other models. Between the two versions of the 530i, a total of 57,570 cars were produced. The highest six-cylinder model (except for the M5) was the 535i. Despite the ‘535i’ model designation and ‘3.5’ casting on the intake manifold, the BMW M30 engine found in the E34 535i actually has a displacement of 3.4 litres. A total of 97,679 cars were produced, including the Alpina B10 (BiTurbo, 3.5) models. The 535i was replaced by the V8-engined 530i and 540i models in 1993. In 1993, the 540i model was added to the top of the 5 Series lineup, powered by the BMW M60 V8 engine and available in both sedan and wagon body styles (the latter not in US). Transmission options were a 6-speed manual or a 5-speed automatic. A total of 26,485 units were produced. Initially, the V8 models were differentiated from other models by the wider grilles. In 1994 the wide grilles became available on other models as well. The first diesel model was the 524td, which was introduced in 1988. This model was replaced by the 525tds in 1991, and a lower-specification 525td was introduced in 1993. All diesel models were powered by turbocharged inline-six engines. Introduced in September 1988 and produced until August 1995, the E34 M5 was produced in both sedan and station wagon (‘Touring’) body styles, the latter being the first M5 to be available as a wagon. The E34 M5 is powered by the BMW S38 inline-six engine, originally with a displacement of 3.6 L and an output of 311 bhp, later upgraded to a 3.8 L engine rated at 335 bhp. This 3.8 litre version of the M5 was first seen by the public at the 1991 Frankfurt Motor Show, where the E34 M5 Touring also saw its debut. In its last year of production for the M5, the transmission was upgraded from a 5-speed manual to the Getrag 420G 6-speed manual (which was also used by the 540i model). The whole range was replaced by the E39 series in 1996.

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The M2 was first revealed in Need for Speed: No Limits on November 2015, before later premiering at the North American International Auto Show in January 2016. Production commenced in October 2015 and is only available as a rear-wheel drive coupé. The M2 is powered by the turbocharged 3.0-litre N55B30T0 straight-six engine producing 365 bhp at 6,500 rpm and 465 Nm (343 lb/ft) between 1,450–4,750 rpm, while an overboost function temporarily increases torque to 500 N⋅m (369 lb⋅ft). The M2 features pistons from the F80 M3 and F82 M4, and has lighter aluminium front and rear suspension components resulting in a 5 kg (11 lb) weight reduction. The M2 is available with a 6-speed manual or with a 7-speed dual-clutch transmission which features a ‘Smokey Burnout’ mode. 0-100 km/h acceleration times are 4.5 seconds manual transmission models and 4.3 seconds for models equipped with the 7-speed dual clutch transmission. Top speed is limited to 250 km/h (155 mph) but can be extended to 270 km/h (168 mph) with the optional M Driver’s package. The M2 Competition was introduced at the 2018 Beijing Auto Show and succeeded the standard M2 Coupé. Production began in July 2018. The M2 Competition uses the high performance S55 engine which is a variant of the 3.0-litre twin turbocharged straight six engine found in the F80 M3 and F82 M4. The engine features a redesigned oil supply system and modified cooling system from the BMW M4 with the Competition Package, and also features a gasoline particulate filter in certain European Union countries to reduce emissions. Compared to the standard M2, the S55 produces an additional 40 bhp and 85 Nm (63 lb/ft), resulting in a larger and more sustained power output of 405 bhp between 5,370–7,200 rpm, and 550 Nm (406 lb/ft) at 2,350–5,230 rpm. The 0-100 km/h acceleration time is 4.4 seconds for six-speed manual transmission models, and 4.2 seconds for models with the 7-speed dual clutch transmission. Top speed is electronically limited to 250 km/h (155 mph), but the M Driver’s package can extend the limit to 280 km/h (174 mph) which is 10 km/h (6 mph) further than in the M2. The M2 Competition also has a carbon-fibre reinforced plastic strut bar, enlarged kidney grilles, and larger brake discs of 400 mm (15.7 in) in the front axle and 380 mm (15.0 in) in the rear axle. Because of the new engine and cooling system, the M2 Competition is 55 kg (121 lb) heavier than the standard M2 at 1,550 kg (3,417 lb) for manual transmission models and 1,575 kg (3,472 lb) for dual-clutch transmission models. It remains in production.

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CITROEN

It was nice to see an example of the legendary 2CV here. There is a long history to this car, but it was only really with the relaunch of the model to the UK market in 1974 when interest here took off. Sales of the 2CV were reinvigorated by the 1974 oil crisis. The 2CV after this time became as much a youth lifestyle statement as a basic functional form of transport. This renewed popularity was encouraged by the Citroën “Raid” intercontinental endurance rallies of the 1970s where customers could participate by buying a new 2CV, fitted with a “P.O.” kit (Pays d’Outre-mer—overseas countries), to cope with thousands of miles of very poor or off-road routes. Because of new emission standards, in 1975 power was reduced from 28 hp to 25 hp. The round headlights were replaced by square ones, adjustable in height. A new plastic grille was fitted. In July 1975, a base model called the 2CV Spécial was introduced with the 435 cc engine. Between 1975 and 1990 under the name of AZKB “2CV Spécial” a drastically reduced trim basic version was sold, at first only in yellow and with an untreated black roof. Slimmer bumpers with stick-on tape rather than plastic strips and no overriders were fitted. It also had the earlier round headlights, last fitted in 1974. In order to keep the price as low as possible, Citroën removed the third side window, the ashtray, and virtually all trim from the car, while that which remained was greatly simplified, such as simple vinyl-clad door cards and exposed door catches rather than the plastic moulded trims found on the 2CV Club. Other 2CVs shared their instruments with the Dyane and H-Van but the Spécial had a much smaller square speedometer also incorporating the fuel gauge, originally fitted to the 2CV in the mid-1960s and then discontinued. The model also had a revised (and cheaper-to-make) plastic version of the 1960s two-spoke steering wheel instead of the one-spoke item from the Dyane, as found on the Club. From the 1978 Paris Motor Show the Spécial regained third side windows, and was available in red and white; beginning in mid-1979 the 602 cc engine was installed.[58] In June 1981 the Spécial E arrived; this model had a standard centrifugal clutch and particularly low urban fuel consumption. By 1980 the boost to 2CV sales across Europe delivered by the 1973 Energy Crisis had begun to wear off and there was a whole new generation of superminis and economy cars available from European and Japanese manufacturers. Citroën itself now had the Visa available. Peak annual production for 2CVs was reached in 1974 (163,143 cars) but by 1980 this had dropped to 89,994 and by 1983 would stand at just 59,673. Nonetheless the car remained profitable for PSA to produce on account of its tooling and set-up costs being amortised many years before and it could share major parts with more popular or profitable models such as the Visa and Acadiane. As part of this rationalisation in 1981 the Spécial was fitted as standard with the 602 cc engine, although the 435 cc version remained available to special order in some European countries until stocks were used up. Also in 1981 a yellow 2CV6 was driven by James Bond (Roger Moore) in the 1981 film For Your Eyes Only. The car in the film was fitted with the flat-4 engine from a Citroën GS which more than doubled the power. In one scene the ultra light 2CV tips over and is quickly righted by hand. Citroën launched a special edition 2CV “007” to coincide with the film; it was fitted with the standard engine and painted yellow with “007” on the front doors and fake bullet hole stickers. In 1982 all 2CV models got inboard front disc brakes, which also used LHM fluid instead of conventional brake fluid—the same as was found in the larger Citroën models with hydropneumatic suspension. In late 1986 Citroën introduced the Visa’s replacement, the AX. This was widely regarded as a superior car to the Visa and took many of the remaining 2CV sales in France following its introduction. From 1986 to 1987 2CV production fell by 20 per cent to just 43,255 cars. Of that total over 12,500 went to West Germany and 7212 went to the UK. France was now the third-largest market for 2CVs, taking 7045 cars that year. It was estimated that Citroën was now selling the 2CV at a loss in the French market, but that it was still profitable in other European countries. The peak of 2CV sales in the United Kingdom would be reached in 1986, thanks to the introduction of the popular Dolly special edition (see below)—7520 new 2CVs were registered in Britain that year. This year saw the discontinuation of the Club, which was by then the only 2CV model to retain the rectangular headlamps. This left the Spécial as the only regular 2CV model, alongside the more fashion-orientated Dolly, Charleston and the other special editions. In 1988, production ended in France after 40 years. The factory at Levallois-Perret had been the global centre for 2CV production since 1948 but was outdated, inefficient and widely criticised for its poor working conditions. The last French-built 2CV was made on February 25. In recognition of the event, the last 2CV built at Levallois was a basic Spécial in a non-standard grey colour—the same shade as worn by the very first 2CVs. Production of the 2CV would continue at the smaller-capacity but more modern Mangualde plant in Portugal. In 1989 the first European emission standards were introduced voluntarily by a number of European nations, ahead of the legal deadline of July 1992. This meant that the 2CV was withdrawn from sale in Austria, Denmark, Italy, Spain, Sweden, Switzerland and The Netherlands—the latter one of the car’s largest remaining markets. That year the three leading markets for the 2CV were West Germany (7866), France (5231) and the UK (3200). The last 2CV was built at Mangualde on 27 July 1990—it was a specially-prepared Charleston model. Only 42,365 2CVs were built in Portugal in the two years following the end of French production. Portuguese-built cars, especially those from when production was winding down, have a reputation in the UK for being much less well made and more prone to corrosion than those made in France. According to Citroën, the Portuguese plant was more up-to-date than the one in Levallois near Paris, and Portuguese 2CV manufacturing was to higher quality standards. As of October 2016, 3,025 remained in service in the UK.

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The GS filled the gap in Citroën’s range, between the 2CV and Ami economy cars and the luxurious DS executive sedan. The DS had moved significantly upmarket from its predecessor the Citroën Traction Avant, and beyond the finances of most French motorists. Leaving this market gap open for fifteen years allowed other manufacturers entry into the most profitable, high volume market segment in France. This combined with the development costs and new factory for the DS-replacing Citroën CX, the 1974 oil crisis, and an aborted Wankel rotary engine, led Citroën to declare bankruptcy in 1974. The GS took 14 years to develop from initial design to launch. In 1956, Citroën developed a bubble car prototype to fill the gap in its range between the DS and the 2CV, known as the C10. Development continued with ideas like a Wankel engine and hydropneumatic suspension suggested as possibilities, with a new, modern body to match. Another iteration was the “C60,” which resembled an Ami 6 with a long, smooth nose. In 1963, development had moved to “Project F”, which was close to being production ready. Citroën decided the car was too similar to the 1965 Renault 16 and by 1967 Project F was suspended. Many of the mechanical components continued to “Project G”, which became the GS. The GS was designed by Robert Opron, with a smooth two box design that bears some resemblance to the 1967 design study by Pininfarina Berlina Aerodinamica. On 24 August 1970, Citroën launched the production GS. The body style was as a Berline (a four-door saloon with three side windows), in a fastback style with a sharp Kammback. The aerodynamics gave the best drag coefficient of any vehicle at the time. Good aerodynamics enabled the car to make the best of the available power from its 1015cc flat four engine, but the car as launched nevertheless drew criticism that it was underpowered. Citroën addressed the issue with the introduction in September 1972, as an option, of a larger 1,222 cc engine. Claimed power increased from 55 bhp to 60 bhp, but it was the improved torque that really marked out the more powerful engine, and which enabled the manufacturer, with the larger engined versions, to raise the second gear ratio and the final drive ratio. Larger front brake discs were also fitted. Visually the GS bore little resemblance to any other car on the market, until the development of the larger Citroën CX in 1974. The fastback design, with a separate boot, was controversial – a hatchback layout was considered too utilitarian by CEO Pierre Bercot. The 1974 CX shared this feature. The boot was nevertheless exceptionally large, in part due to the positioning of the spare wheel on top of the engine. Both the early GS (until 1976) and the GSA have the unusual rotating drum speedometer (similar in construction to bathroom scales), rather than the dials found in a conventional dashboard. The later GS (from 1977 until the introduction of the GSA) had a conventional speedometer. The GS was offered in four trims: G Special (base), GS Club (midrange), GS X (sports), and GS Pallas (luxury). The GS X and Pallas were only offered as saloons. The GS was also available, from September 1971, as a four door station estate and a similar two-door “service” van.

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The Visa is rare now, even in France, as despite the fact that Citroën built 1,254,390 examples of the model between 1978 and 1988, the model is all but extinct everywhere. There was a very long gestation to this car, which goes all the way back to 1965, when Robert Opron worked on the Citroën G-mini prototype and projet EN101, a replacement for the 2CV, using the flat twin engine from the 2CV. It was supposed to launch in 1970. The advanced space efficient designs with very compact exterior dimensions and an aerodynamic drag co-efficient Cd of 0.32, were axed because of adverse feedback from potential clients. With Citroën’s small car range all getting somewhat elderly, the decision was taken to try again, with the Citroën Prototype Y which was planned to replace the 2CV based Citroën Ami that dated back to 1960 in the early seventies. This was originally developed in co-operation with Fiat, built on the lessons from the Citroën G-mini and EN101 projects. It used the then new and advanced Fiat 127 platform, that used a transverse front wheel drive engine, with an end on gearbox layout that Fiat had pioneered in the 1960s. When co-operation with Fiat ended, a new Citroën designed platform was planned. After the takeover of Citroën by Peugeot in the wake of the 1974 oil crisis, the renamed “Projet VD (Voiture Diminuée)” became the Citroën Visa, incorporating the floor pan and advanced 104 engine, with its transmission (under the engine) and chassis. It was the first new model under the platform-sharing policy of PSA Peugeot Citroën that continues today. The earlier Citroën LN had just been a facelift of the Peugeot 104Z “Shortcut” with a re-engine and transmission from the Citroën Dyane. Eventually, in 1984, the original Citroën platform design from “Project Y” emerged as the Oltcit Club in Romania, using a Citroën Visa flat-twin engine and Citroën GS based gearbox, and Citroën GS flat-four engine and gearbox, and was also sold in Western Europe as the flat-four only Citroën Axel to recoup money that Citroën had invested in Romania, which the communist government could not repay. This project was problematic for Citroën due to build quality issues, only 60,184 cars were made, even though the base models were priced below the 2CV in Western Europe. The Axel was never sold in the UK. The five-door Citroën Visa and the three-door Axel look very similar, but there is no part interchangeable between these two Citroën models. The Visa entered a crowded market, with supermini competitors including the Chrysler Sunbeam, Mk1 Renault 5, Mk1 Ford Fiesta, Vauxhall Chevette, Mk1 VW Polo and Fiat 127. Though it was launched as a supermini, it was about the same length (3725mm) and height (1430mm), but slightly narrower at 1526mm than a Volkswagen Golf Mk1, which was in the next class up. It was part of a ‘between sizes’ policy that Citroën also followed with the BX. From its launch in September 1978, the front-wheel drive Visa was available in “Spécial” and “Club” models with a mapped electronic ignition 652 cc, 2-cylinder and a “Super” (later “Super E”) model (called the 11RE after 1984), with the advanced Peugeot 1,124 cc Douvrin engine / PSA X engine, a four-cylinder “Suitcase engine” — all aluminium alloy, chain driven overhead cam, with gearbox in the sump, sharing engine oil, mounted almost on its side. The 1124 cc was as economical as the Citroën 2CV-derived twin, but with much better performance. Later on it had 1,219 cc (Super X) and then 954 cc (10E after 1984) and 1,360 cc (1983 Visa GT and 14TRS after 1985) versions of the same engine. The ergonomic design of the Visa controls used a Citroën “PRN Satellite” (P=Pluie – Rain, R=Route – Road, N=Nuit – Night) which gave access on one cylindrical unit to wipers, washers, horn, indicators, headlamps and flashers, all mounted a finger’s reach away from the steering wheel. The heat and ventilation control sliders that moved in arcs, were on the other side of the steering wheel, also within closer reach than usual. In 1982 the Visa underwent a major external restyling, designed by Heuliez, to look more mainstream. It kept the original interior and “PRN Satellite” controls until 1985 when, along with the Citroën BX, it was updated with a new bulkier dashboard, instruments and switchgear that made the car feel smaller inside. Stalk switchgear like contemporary Peugeots added self-cancelling indicators, but it kept the original monospoke steering wheel. It had very soft, but well damped, long travel, fully independent suspension with coil-sprung MacPherson struts at the front and coil sprung trailing arms at the rear, that caused it to have a soft ride like the Citroën 2CV, but without such extreme roll angles. CAR magazine made the Visa diesel one of its top ten models on the market for two years running in the mid-1980s (January 1986 and 1987), for its versatility (higher models in the range had split rear seats which could be lifted-out to give an almost van-like luggage capacity); ride comfort (“like a limousine”); its ability to maintain high average speeds due to high levels of grip; and value for money. It was also particularly aerodynamically stable at high speeds for a relatively light, narrow and tall car. It would remain unperturbed by cross-winds and truck bow waves at motorway speeds. It also had at the middle ‘R’ trim level and above, (currently unfashionable), but practical, grey plastic side rubbing strips, to protect against car park damage. The very curved sides of the windscreen, enabled the use of a very large single wiper on the long narrow windscreen, without fouling the windscreen seal. The front of the revised car, was designed to aerodynamically reduce the deposition of dirt on the headlights, and to reduce the risk of stone chips to the headlights, bonnet and windscreen. The heating and ventilation system, (even though it used only a water control valve for temperature control and not air mixing), could provide cold air from fascia side vents, to the face while warming the car. The central directable fascia vents could be heated and angled, so that they could be pointed directly at the windscreen in front of the driver, to keep it clear in extreme misting conditions. There was also an additional mid level vent, to blow air between the front seats to the back of the car. The rear parcel shelf was in two hinged sections, one in the car, the other on the tailgate, to allow objects that were slightly too tall to still fit without removing the shelf. When carrying larger loads, the part of the shelf attached to the tailgate could be folded up, and fixed with the elasticated support strings, to protect the rear window and heated rear screen elements. Long time CAR magazine columnist George Bishop, actually bought one with his own money. Before the advent of the diesel model, the electronic ignition (mechanical and vacuum controlled), 1124cc high compression engined Super E, (later renamed 11RE) with high gearing, was the best seller in the range. It was better equipped than the base 1.0 litre Austin Metro and Ford Fiesta it was priced against, having height adjustable halogen headlights, intermittent rear wash-wipe and multi-speed / intermittent front wipers, heated rear window, removable split folding rear seats, as well as five doors when its main competitors in the UK only had three, (the five-door Metro was launched in 1985, the five-door mark three Fiesta launched in 1989). A five speed gearbox was optional, when the base model competitors could only be had with a four speed. Most 1980s base model hatchback economy cars did without halogen headlights and rear wash-wipes, even heated rear windows could be optional. The 1984 launched 954cc 10E model was a direct competitor on specification to the Metro and Fiesta, but significantly undercut them on price. A four-door convertible version, with the doors and window frames remaining intact, of the 11RE was also produced in the Heuliez factory from 1984. This was heavier and slower than the hatchback that it was based on. In spring 1984 the very successful diesel version was added. The Visa 17D and 17RD used the famously rugged and refined, class-leading 1,769 cc XUD diesel and transmission from the Peugeot 205. It also capably powered the Peugeot 405, which was two classes larger, and made light work of powering the lightweight Visa. It had too wide a track for the original engine compartment and wings, so the front wings were extended with large black plastic wheel arch panels. The spare wheel that in smaller petrol engine versions, was mounted on top of the flat or near horizontal engine, was bolted to the otherwise flat boot floor — compromising luggage space. In continental Europe, a basic diesel van the ‘Visa Enterprise’ was sold that used the normal Visa bodyshell with the rear doors welded shut. It mounted a spacesaver spare wheel under the bonnet, over the diesel engine. Some diesel hatchbacks there, also used this arrangement. At the Paris Salon 1984, for model year 1985, the 1.4 litre TRS was presented. This version was produced for two years (1985–1987), shared its engine with the Citroën BX14. Even though it received a favourable review by CAR magazine who felt it was a better performance/economy compromise than the 11RE, it wasn’t very successful, due to being squeezed by the Visa Diesel and the extremely competitively priced BX 14. Between 1985 and 1987 the 1.1 litre petrol and 1.7 litre diesel “Leader” special editions were marketed. In the latter half of the eighties a 55 PS catalysed version of the 1,360 cc engine was added for markets with stricter emissions standards. No automatic gearbox version was produced.

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Despite the fact that 2,315,739 BXs were built during its 12-year production run, and the car sold well, these are getting increasingly scarce, even in France. The rather angular hatchback was designed by Marcello Gandini of Bertone, based on his unused design for the British 1977 Reliant FW11 concept and his 1979 Volvo Tundra concept car. It was the second car to benefit from the merger of Peugeot and Citroën in 1976, the first being the Citroën Visa launched in 1978. The BX shared its platform with the more conventional 405 that appeared in 1987, except the rear suspension which is from a Peugeot 305 Break. Among the features that set the car apart from the competition was the traditional Citroën hydropneumatic self-levelling suspension, extensive use of plastic body panels (bonnet, tailgate, bumpers), and front and rear disc brakes. The BX dispensed with the air cooled, flat four engine which powered the GS, and replaced it with the new PSA group XY, TU and XU series of petrol engines in 1360 cc, 1580 cc and, from 1984, 1905 cc displacements. In some countries, a weaker, 80 PS version of the 1580cc engine was badged as the BX15E instead of BX16. A 1124 cc engine, in the 11TE, very unusual in a car of this size, was also available in countries where car tax was a direct function of engine capacity, such as Ireland, Italy, Portugal and Greece. The 11TE model was seen by foreign motoring press as slow and uncomfortable. It was fitted to the cars made from 1988 to 1993 and produced 55 hp. The 1.1 and 1.4 models used the PSA X engine (known widely as the “Douvrin” or “Suitcase Engine”), the product of an earlier Peugeot/Renault joint venture, and already fitted in the Peugeot 104 and Renault 14. The 1.6 version was the first car to use the all-new short-stroke XU-series engine. It was produced in a new engine plant at Trémery built specifically for this purpose, and was later introduced in a larger 1.9-litre version and saw long service in a variety of Peugeots and Citroëns. The XUD diesel engine version was launched in November 1983. The diesel and turbo diesel models were to become the most successful variants, they were especially popular as estates and became the best selling diesel car in Britain in the late 1980s. Despite being launched on the continent in the autumn of 1982, it wasn’t launched onto the British market until August 1983, initially only with 1.4 and 1.6 petrol engines, although further engine options and the estate model would arrive later, and it would go onto become one of the most popular foreign-built cars here during the second half of the 1980s. A year after the launch of the hatchback model, an estate version was made available. In 1984 power steering became optional, welcome particularly in the diesel models. In the late 1980s, a four-wheel drive system and turbodiesel engines were introduced. In 1986 the MK2 BX was launched. The interior and dashboard was redesigned to be more conventional-looking than the original, which used Citroën’s idiosyncratic “satellite” switchgear, and “bathroom scale” speedometer. These were replaced with more conventional stalks for light and wipers and analogue instruments. The earlier GT (and Sport) models already had a “normal” speedometer and tachometer. The exterior was also slightly updated, with new more rounded bumpers, flared wheelarches to accept wider tyres, new and improved mirrors and the front indicators replaced with larger clear ones which fitted flush with the headlights. The elderly Douvrin engine was replaced by the newer TU-series engine on the 1.4 litre models, although it continued to be installed in the tiny BX11 until 1992. 1988 saw the launch of the BX Turbo Diesel, which was praised by the motoring press. The BX diesel was already a strong seller, but the Turbo model brought new levels of refinement and performance to the diesel market, which brought an end to the common notion that diesel cars were slow and noisy. Diesel Car magazine said of the BX “We can think of no other car currently on sale in the UK that comes anywhere near approaching the BX Turbo’s combination of performance, accommodation and economy”. In 1989, the BX range had further minor revisions and specification improvements made to it, including smoked rear lamp units, new wheeltrims and interior fabrics. Winning many Towcar of the Year awards, the BX was renowned as a tow car (as was its larger sister, the CX), especially the diesel models, due to their power and economy combined with the self levelling suspension. The biggest problem of the BX was its variable build quality, compared to its competition. In 1983, one quarter of the production needed “touchups” before they could be shipped, though later models were more solid. The last BX was sold around 1994.

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This is an AX GT. Development of this model started in 1983, and was initially also going to form the basis of a sister model from Talbot to replace the Samba; however, the falling popularity of the Talbot brand – coupled with the huge success of the new Peugeot 205 – had led to Peugeot deciding to axe it by the time the Citroën AX was launched, and so the Talbot version never made it into production. The car was available on the left-hand drive continental markets from its launch on 2 October 1986, as a three-door hatchback with 1.0, 1.1 and 1.4-litre TU-series belt driven OHC engines. A range of five-door models was added in 1987 and a 1.4 litre diesel engine was introduced in 1988. The latter was replaced by a 1.5 litre unit in September 1994. The right-hand drive version for the UK market was launched in August 1987, initially only as a three-door hatchback, with a five-door version joining the range a year later, effectively replacing the five-door Citroën Visa, which was discontinued that year. With the final demise of the classic Citroën 2CV in 1990, the AX became the smallest model in the Citroën range. The very earliest cars had an issue with gear shifters falling off; this was rectified by the time the AX reached export markets. It was initially backed by a memorable television advertising campaign filmed in China, starring actress Janet Mas and an elderly gentleman, whose character was simply known as Mr. Wong. The car was very economical, largely because of excellent aerodynamics for its class of car (drag coefficient of 0.31) and a very light weight of 640 kg (1,411 lb) for the basic version. This was due to the extensive use of plastic panels in non-load bearing areas and varying the thicknesses of steel in the bodyshell to be the minimum needed to take required loads. Another target for the engineers was lowering friction in the engines. The AX has fully independent suspension with unusually long wheel travel. It also optionally used self-coloured plastic bumpers. This technology came from the PSA Peugeot-Citroën / Renault / French government ECO 2000 project. The production version was much more conservative than the original ‘one box’ design prototype, that was closer to the Eco 2000 styling after negative reactions in focus groups. The “one-box” city car eventually came to market with the Renault Twingo, launched in 1992. In 1989, a naturally aspirated diesel AX, using the 1360 cc all aluminium alloy TUD engine, managed a figure of 2.7 litres/100 km (100 mpg), totalling over 1,000 miles from Dover to Barcelona. This was the longest ever distance travelled on 10 gallons of fuel and earned it a place in the Guinness Book of Records as the most economical production car. Also available was a 4×4 variant, but with limited success when compared to the rival Fiat Panda 4×4. The AX 4×4 was only available with five doors and was not sold in the United Kingdom. The first performance version was the limited-run AX Sport from 1987, with a 1.3 engine and twin carburettors producing 95 bhp, wearing iconic white steel wheels (5,5″ x 13″) which resembled those on its brother, the Peugeot 205 Rallye. The AX Sport used Solex ADDHE 40 carburettors until late 1988 and was then replaced with Weber DCOM 40s, just like the 205 Rallye 1,3. The AX Sport had a shorter inlet manifold than the 205 Rallye, to save room in the smaller engine compartment. In phase 2 guise the Sport was available in other colours and with optional GT wheels and rear spoiler. Later, the AX 14GT, with a single-carburettor 85 bhp 1.4 engine also found in the Peugeot 205 XS, was introduced. From 1991, this model utilised fuel injection to coincide with the revamp of the entire range and to coincide with tougher 1992 EU emission regulations that introduced exhaust catalytic converters. Late 1991 saw the range revised, with a heavily facelifted tailgate and interior being the most notable changes. The front turn signals were now clear, and the Citroën logo was moved to the center of the bonnet. The much maligned dashboard was replaced by a more conservative design. The following year saw the introduction of the most powerful AX variant, the 100 bhp GTi. The GT was sold alongside the GTi for a few months, but was eventually phased out. New models were also introduced, such as the Forte, Spree, Elation and Dimension. In January 1995, the Citroën AX Echo was launched, with a top speed of 110 mph (180 km/h). Its closest competitor, the Peugeot 106 Ski, (that shared components with the AX), was outsold by the Echo. From June 1996, following the introduction of the Saxo, the range was slimmed-down, with production of the AX ending in December 1998, after a 12-year production run. It had been withdrawn from the UK market during the first half of 1997, following the demise of right-hand drive production. A total of 2,425,138 AXs were produced.

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The Xantia replaced the earlier Citroën BX (which straddled both small and large family car segments), and maintained the high level of popularity of that model, but brought the car more into the mainstream to compete harder with its rivals, such as the Ford Mondeo, Nissan Primera, Rover 600, Toyota Carina E and Opel Vectra/Vauxhall Cavalier. Sales commenced in March 1993. The car was built from November 1992 to October 2002 in France, totalling almost ten years, including the facelift in December 1997. It signalled that Citroën had learned from the reception given to the staid Citroën ZX, introduced two years earlier, and criticised by contemporary journalists for its lack of traditional Citroën flair, in engineering and design. Citroën addressed these concerns in the Xantia. The Xantia also used the traditional Citroën hydropneumatic suspension system, which was pioneered by the older DS. It was initially only available as a hatchback (notchback) (Berline), but an estate (station wagon) (Break) version, built by Heuliez, appeared in September 1995. Inline with PSA Group policy, the Peugeot 406, launched two years later, used the same floorpan, core structure and engines as the Xantia. The Hydractive suspension system was not carried over, and the 406 utilised a more traditional spring suspension. Sales in the United Kingdom were strong, and even though it was never able to match the volume of British favourites, such as the Ford Mondeo or Vauxhall Vectra, the car did help Citroën establish a strong foothold in the business car market in the United Kingdom.

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The Citroën Saxo was a supermini produced by the French manufacturer Citroën from 1996 to 2004. It was sold in Japan as the Citroën Chanson, because Honda had registered the “Saxo” name. As a badge engineered variant of the Peugeot 106 (which itself was a development of the Citroën AX), the major difference being interiors and body panels. Production ended in 2004, when it was replaced with the Citroën C2 and Citroën C3. All engines were from the PSA TU engine series that powered the Peugeot 205 from 1988 and the Citroën AX, and had their roots before that with the OHC PSA X engine various other PSA cars used, such as the Citroën Visa, Peugeot 104 and early Peugeot 205. The range included five petrol engines and one diesel engine, all naturally aspirated. Although the quoted power outputs are low in comparison to modern small hatchbacks, or even to other hatchbacks of the time, the kerb weight was generally very low, with even the range-topping VTS having a kerb weight of just 935 kg (2,061 lb), with other smaller engine models (except the diesel) being around 100 kg lighter than this. This meant a high power to weight ratio resulting in decent acceleration and made the car suitable for city driving. Aside from the VTS which had 16 valves, all engines were the older SOHC units which meant relatively low city MPG figures. Even the popular 1.1i engine would struggle to achieve more than 35 to 40mpg in town when driven carefully. The real world consumption between the smaller engines and the nippy 1.4i Westcoast/Furio variant was hardly noticeable, however the insurance premiums were. The early 1.0i was quite under powered, with the 1.1i being considered much better, since it was nearly 200cc larger and had roughly 30% more torque. There were three sport models of the Saxo: the Westcoast, later replaced by the Furio which featured a 1.4I 8V 75PS engine with a top speed of 175 km/h (109 mph), and a 0-62.5 mph (0–100 km/h) time of 11.2 seconds; the VTR MK1 (1997–1999) featured a 1.6I 8V 90PS engine with a top speed of 187 km/h (116 mph) and a 0-62.5 mph (0–100 km/h) time of 10.0 seconds. The VTR MK2 (1999–2003) featured a 1.6I 8V 98PS engine with a top speed of 193 km/h (120 mph) and a 0-62.5 mph (0–100 km/h) time of 9.4 seconds; the VTS 16V featured a 1.6I 120PS engine with a top speed of 205 km/h (127 mph), and a 0 to 60 mph time of 7.8 seconds. The VTS MK1 (1997–1999) and MK2 (1999–2003) shared similar performance, although the MK2 was slightly slower due to it being marginally heavier. These models included 247 mm (9.7 in) vented front brake discs, with the VTR and VTS also having rear brake discs (solid 247 mm (9.7 in) discs). Also, a different style of control arms and struts was used for the suspension. The VTS had a 22 mm (0.9 in) master brake cylinder, and the VTR and Westcoast/Furio had a 19 mm (0.7 in). The VTS had a 19 mm (0.7 in) front anti roll bar and 22 mm (0.9 in) rear anti roll bar, while the VTR and Westcoast/Furio had a 19 mm (0.7 in) front and 21 mm (0.8 in) or sometimes 19 mm (0.7 in) rear antiroll bar. In addition, all the sports models featured a unique bodykit to the other models, commonly known as the “VT” bodykit. In 1997 the Saxo’s three speed automatic gearbox was combined with the 1.6i 8V 90PS engine which was available on the Saxo SX and VSX. Then, in the end of 1997, the 1.6i automatic was replaced with a 1.4i 75PS engine. The 1.6i was more powerful with a top speed of 176 km/h (109MPH) compared with the 1.4’s top speed of 103 mph (166 km/h). Citroën carried on using the 1.4i engine on the facelift Saxo Automatic in 1999. Due to the C3 having a 1.4i automatic gearbox, the Saxo Automatic came to an end in March 2002, whilst the manual models were still sold right up to the end of 2003. The equipment list was generally sparse, with budget models having drivers airbag, seat belt pre tensioners, cassette player, heated rear screen and tinted windows, and early Mark Ones with keypad immobilisers and a clock in place of a tachometer and three stud wheels, much like the AX. Further up the list sunroofs, PAS, Electric windows, ultrasonic alarm, passenger airbag, CD player, tachometer, front fog lights, bodykits, colour coded mirror caps and alloy wheels were added, to name a few. Although MK2 Saxos were generally better equipped than their older counterparts, the interiors were still dated in comparison to other small hatchbacks of the time, such as the Vauxhall Corsa, with many of the centre console controls originating from the older model of the Citroën AX. The 1.6L VTR and VTS Saxos were the best equipped, with both gaining rear disc brakes as opposed to drum brakes, and ABS as standard for the VTS and an optional extra on all other 1.6-litre models. Few special models were released throughout the Saxo’s life, most notably the “Open Scandal”, a Saxo with a full length sliding canvas roof. Other special editions added certain extras to the lower end model, such as sunroofs or PAS. Notable models are the Westcoast up to 1999 and the Furio to 2003, as they incorporated the standard Saxo bodykit found on the VTR and VTS with a more insurance friendly 1.4-litre engine. The Westcoast is not to be confused with the Eastcoast, which was only available in the 1.0L and later 1.1L engines. The Eastcoast also did not incorporate the “VT” bodykit. Air conditioning was never an option on right hand drive Saxos because the blower motor was mounted in the bulk head on the driver’s side. As a result, there was insufficient space available to accommodate the evaporator, except by first ducting the air flow to the passenger’s side and then at the expense of the glove box. Although an after market kit was available that did exactly this, the resultant pressure loss made the system noisy and ineffective. The blower motor could also not be easily relocated, since the windscreen wiper motor was mounted in the passenger’s side space. In September 1999, the Saxo received a style makeover, commonly branded as a Mark II, with the major differences being more modern styled headlights, bonnets and grilles to replace the square style on the MK1 and multipoint injection replacing the single point on the 1.1-liter engines. In September 2000, it was a Euro NCAP sufferer of poor results, along with its twin, the 106. Power steering became standard on all but the very basic models. More subtle changes were alterations to the rear lights (the indicator sections are more “white”) and the engine control unit moved from a single plug to three plugs. The old three-stud wheel layout, as used on the Citroën AX, was also dropped. There was also a minor facelift, during the first phase of the car’s production, in line with the then current releases by Citroën, moving towards a rounder look. While the exterior was markedly altered, little changed inside the vehicle. The dashboard and glovebox arrangement remained the same with the possibility of installing a passenger-side airbag in some high range models. By 2003, some buyers were more attracted to the spacious, and practical five-door C3. However, the 1.6 VTR and VTS models remained popular. The Saxo finally finished production in September 2003, when the three-door C2 was launched. Its twin, the Peugeot 106, also ceased production at this time. By the end of the Saxo’s production life, its design was seven years old.

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The Citroën Xsara is a compact C-segment family car, produced by the French automaker PSA Peugeot Citroën, under their Citroën marque, from 1997 to 2006. The Xsara was a development of the Citroën ZX and Peugeot 306, which shared a platform and running gear. It came in three and five door hatchback (notchback) and five door estate body styles; the estate was marketed as the Break and the three door as the Coupé. The styling shared cues with the larger Bertone designed Xantia, but was regarded as bland by the motoring press. The straight four engine range includes 1.4, 1.6, 1.8 and 2.0 litre petrol engines as well as 1.6, 1.9 and 2.0 litre naturally aspirated and turbocharged diesels. In some countries, such as Portugal, the 1.5 litre TUD5 diesel engine was also available. The Xsara was 1998 Semperit Irish Car of the Year in Ireland.
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DODGE

The Dodge B series is a range of full-size vans that were produced by Chrysler Corporation from 1970 to 2003. Through their production, they were sold under several different nameplates. Most examples were sold by the Dodge division, although rebadged versions were sold by the now-defunct Fargo and Plymouth divisions. Although Chrysler would make two redesigns of the B-platform van, much of the exterior sheetmetal would remain nearly unchanged over 32 years of production, making it one of the longest-used automotive platforms in American automotive history. For 2003, DaimlerChrysler introduced the Dodge Sprinter (produced by Mercedes-Benz), making the B-platform van the last full-size van designed by Chrysler; Ram Trucks currently markets the Ram ProMaster (a rebadged Fiat Ducato). Built on the B platform (later AB), the full-size vans entered production for the 1971 model year. Due to a one-welded-piece “Uniframe” design, the Dodge platform was lighter and stronger and featured a lower cargo floor than the competition, at the expense of noise, vibration, and harshness (NVH). The resulting lower center of gravity improved handling versus the competing products. The B-series van was popular for cab-over motorhome conversion until Chrysler Corporation’s egress from that market during their financial difficulties in the late 1970s. All generations of the B-series van feature similar construction, with only small variation from era to era. The most pronounced changes were to the front fenders, hood, grille, and bumpers, which tended to follow their full-size truck counterparts in each era. Much of this was a result of the need to meet Federal “crashworthiness” standards. Additionally, the first generation’s side door was mounted back several inches, using a fixed panel between the passenger’s side front door and the side door, allowing for more access to the side door without interfering with the front passenger’s seat. This panel was eliminated in 1978 which was a transitional year for the B-series van. Similar construction for the entire 32 years of production made the Dodge Van very popular with upbuilders, service companies, and other fleets due to the compatibility of installable options from year to year without necessitating a redesign. Dodge first pioneered the extended-length 15-passenger van favoured by school and church groups and dominated this market until overtaken by Ford in the 1990s. It offered a sliding side door as well as a unique side-swinging tail door with a full-width window. It was also popular in class-C RV and ambulance conversions. The minivan eventually took over the passenger wagon market. With the Sprinter, Chrysler shifted from American-style full-sized vans in favour of more fuel-efficient European-style models. In 1979 the van received a redesigned front end, including a new grille with wraparound turn signals. Lower-end models had single round headlights, while Royal Sportsman and other high-end vans received four rectangular headlights. The van would keep this body style and the 1978 dash intact with only grille changes all the way through the 1993 model year. The Sportsman, Tradesman, and Adventurer names were phased out after 1980, replaced with the Ram van moniker, which included the Ram wagon for passenger models. As with the D-series trucks, B100 and B150 models were 1/2-ton rated, B250 models were 3/4-ton, and B350s were one-ton. The body shell and most fixtures would be one of the longest running of any US vehicle, remaining nearly identical from the vans’ introduction in 1971 through their discontinuance in 2003, while Ford and GM would go through two or three generations of platform redesigns. In 1986 the Ram van was given a new grille to resemble those of the 1986 Ram trucks. In 1994 the entire front end was redesigned with flush headlamps to resemble the all-new Dodge Ram pickups, and new taillights wrapped around the sides of the van. The 1978-style dash was kept. A third series did not appear until 1994.

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FORD

A sporting version of Ford’s front wheel drive Escort was announced at the same time as the “cooking” 1.1, 1.,3 and 1,6 litre cars in October 1980. This was the XR3, and it came initially with a carb fed 1.6 litre engine generating 105 bhp and had a four speed gearbox. Fuel injection finally arrived in October 1982 (creating the XR3i), eight months behind the limited edition (8,659 examples), racetrack-influenced RS 1600i. The Cologne-developed RS received a more powerful engine with 115 PS, thanks to computerised ignition and a modified head as well as the fuel injection. For 1983, the XR3i was upgraded to 115bhp thanks to the use of fuel injection and a five speed transmission had been standardised. Both variants proved very popular, getting a significant percentage of Escort sales and also as a slightly more affordable alternative to a Golf GTi. For those for whom the performance was not quite enough, Ford had an answer, withe the RS Turbo. This 132 PS car was shown in October 1984, as a top of the range car, offering more power than the big-selling XR3i and the limited production RS1600i. Going on sale in the spring of 1985, it proved to be somewhat of a disappointment, with the chassis coming in for severe criticism. The RS Turbo Series 1 was only marketed in a few European nations as production was limited to 5,000 examples, all in white. They were well equipped, with the alloy wheels from the limited production RS 1600i, Recaro seats, and a limited slip differential. One car only was finished in black; it was built especially for Lady Diana. Ford facelifted the entire Escort range in January 1986, and a few months later, a revised Series 2 RS Turbo emerged, which adopted the styling changes of the less potent models, and the new dashboard, as well as undergoing a mechanical revision and the addition of more equipment including anti-lock brakes. The Series 2 cars were available in a wider range of colours.

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The XR2 was the first truly sporting Fiesta, as the earlier S badged cars were mechanically the same as the other models in the range and even the Supersport was offered in Europe for the 1980 model year, used the regular 1.3 litre Kent Crossflow engine. It was well enough received, though, to convince Ford to introduce in October 1981 their second XR-badged model, following the October 1980 launch of the Escort XR3. The XR2 featured a 90 bhp 1.6 litre engine and is easily identified from the black plastic trim which was added to the exterior and interior. The small square headlights were replaced with larger circular ones resulting in the front indicators being moved into the bumper to accommodate the change. With a quoted performance of 0–60 mph in 9.3 seconds and a 105 mph top speed, the XR2 hot hatch became a cult car beloved of boy racers throughout the 1980s meaning that very few have survived. This one was in fabulous condition.

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In 2005 Ford unveiled a hot hatch version of the Mk 2 Focus. Called Focus ST, and available in either three or five-door hatchback variant, the car uses the Volvo Modular engine, a turbocharged 2.5 L 5-cylinder engine producing 225 bhp. Ford however rebadged it as the Ford Duratec ST, applied variable valve timing to both camshafts, applied a lighter flywheel and performed a throttle recalibration. The Ford Focus Mk 2 ST is also known as the XR5 Turbo in the Australian and New Zealand market, but is sold as a five-door hatchback only. In 2008 Ford, in conjunction with Mountune Racing, unveiled a power upgrade kit which raises the power output to 260 bhp the kit consists of: a K&N panel filter, larger intercooler and a re-map. Although the platform is the same, no saloon version was ever released. Sales ceased when the third generation Focus was released in 2011.

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Finally, on December 17, 2007 Ford of Europe confirmed that a Mk 2 Focus RS would be launched in 2009, with a concept version due in mid-2008. t with an upgraded Duratec ST engine with 305PS Duratec RS, gearbox, suspension, and LSD. In 2008, Ford revealed the new Focus RS in “concept” form at the British International Motor Show. Contrary to numerous rumours and speculation, the RS was announced by Ford to have a conventional FWD layout. The Duratec RS engine was upgraded to produce 301 bhp and 325 lb/ft of torque. 0 to 100 km/h (62 mph) acceleration was quoted to be under 6 seconds. The RS used a modified Volvo -engineered 2,522cc five-cylinder engine found in the Focus ST. A larger Borg Warner K16 turbo now delivers up to 20.3-psi of boost. A new air-to-air intercooler has been developed as a complement, while the forged crankshaft, silicon-aluminum pistons, graphite-coated cylinder bores, 8.5:1 compression ratio and variable valve timing also up the power output. The car remained front wheel drive, but to reduce torque steer used a Quaife Automatic Torque Biasing LSD, and a specially designed MacPherson strut suspension at the front called RevoKnuckle, which provided a lower scrub radius and kingpin offset than traditional designs while avoiding the increased weight and complexity of double wishbone and multi-link suspension setups. Ford UK claim: “It’s as close as you’ll come to driving a full-spec rally car (Ford Focus RS WRC). The production car was finally unveiled on 5 January 2009. It looked very distinctive, as at the rear a large venturi tunnel and a dramatic rear spoiler created a purposeful look. It was available in three expressive exterior colours: Ultimate Green, Performance Blue and Frozen White. The ‘Ultimate’ Green was a modern reinterpretation of the classic 1970s Ford Le Mans Green of the Ford Escort RS1600 era.

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Beginning Summer 2012 (UK)/late 2012 in the US, Ford offered a new performance-oriented hot hatch Focus ST, as first revealed at the 2010 Paris Motor Show and then at the 2011 Frankfurt Motor Show when more details were announced, including the availability of an estate(wagon) version for European markets, and the possibility of a sports sedan version for North American markets. The ST features a new, more aggressive exterior design, including a redesigned front bumper with larger air intakes and grille, larger rear wing, wider side sills, center-exit exhaust, and alloy wheels. Inside, the car receives a trio of additional gauges mounted in the dashboard, faux-carbon fiber trim, and sport seats with body-coloured inserts and stitching. The car will be offered three trim options: ST1, ST2, and ST3; the same three options that were available with the MkII ST. Differences between the US and European models besides the lack of the wagon model outside Europe and Federally-required amber side reflectors are limited to paint and trim: Euro ST1s get all-cloth Recaro seats while U.S.-spec ST1s use the same seats as the 2012 SE Sport Package; Red seat accents on the Recaro seats are not available on American ST2s; Euro ST3s feature a leather Recaro rear seat setup; The rear headrests are different in each market; Red is the only exterior colour included in the base price in Europe while yellow is the only extra-cost colour in the U.S.; The optional MyFord Touch system that is fitted to ST2/ST3 models in the U.S. is not offered in Europe; The North American ST utilizes a full-size spare tire while the Euro ST features a mini spare or fix-a-flat setup, depending on what audio system is fitted; The Euro ST offers further options (some grouped in option packages) compared to the North American models including: red brake calipers (standard on all ST trim levels in U.S.), pop-out door guards, heated windshield, lane departure system, and active speed limiter; Headlight washers are fitted to the Euro ST3; Only the ST3 model in the United States features the handbrake, armrest, and cup holder design from the Focus Titanium, while all Euro and Canadian Focus STs have that setup; The Euro Focus ST features a height-adjustable front passenger seat. The ST used a 252 bhp and 366 Nm (270 lb/ft) version of the 4-cylinder 2.0L EcoBoost engine, a gain of 25 bhp above the previous Focus ST which used a larger 2.5L 5-cylinder engine. It is resultantly estimated that the ST will reach 100 km/h (62 mph) in 6.1 seconds, while its top speed will be 248 kilometres per hour (154 mph). Compared to the previous ST, the new model has the same 0 to 100 km/h time and has a 2 mph higher top speed. Another significant improvement is weight; the new car is 30 kg (66 lb) lighter than its 5-cylinder powered predecessor. For the 2015 model year, the ST continued to use the 252 hp 2.0L EcoBoost with a 6-speed manual gearbox in ST1, ST2 and ST3 trims for the European and US markets, and the single ST trim in the Australian market. Updates were made to the front and rear fascias to coincide with the changes implemented in the standard Focus, including the lights, grille, and rear diffuser. The availability of 5-door hatchback and estate (wagon) body styles remained unchanged. For the European markets, a 2.0L TDCi Duratorq Diesel engine was available for the ST with a 6-speed PowerShift automatic gearbox to rival the likes of the Volkswagen Golf GTD and the SEAT León FR. The 2.0L Duratorq’s rated output is 182 bhp, and 300 lb/ft (407 Nm) of torque in the ST. Pricing and badging is the same for petrol and diesel models. The car was phased out in 2018 when the next generation Focus arrived.

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Also here was the previous generation Fiesta ST.

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Drawing on inspiration from the mid-engined Ford Mustang I concept vehicle, Lee Iacocca ordered development of a new “small car” to vice-president of design at Ford, Eugene Bordinat. Bordinat tasked Ford’s three design studios (Ford, Lincoln-Mercury, and Advanced Design) to create proposals for the new vehicle. The design teams had been given five goals for the design of the Mustang: It would seat four, have bucket seats and a floor mounted shifter, weigh no more than 2,500 pounds (1,100 kg) and be no more than 180 inches (4,572 mm) in length, sell for less than $2,500, and have multiple power, comfort, and luxury options. The Lincoln–Mercury design studio ultimately produced the winning design in the intramural contest, under Project Design Chief Joe Oros and his team of L. David Ash, Gale Halderman, and John Foster. Development of the Mustang was completed in a record 18 months from September 1962 to March 1964. and Iacocca himself championed the project as Ford Division general manager. The styling is often credited to one person, and that is not accurate, as this was very much a team effort, it has been reported by those involved. To decrease developmental costs, the Mustang used chassis, suspension, and drivetrain components derived from the Ford Falcon and Fairlane. It used a unitised platform-type frame from the 1964 Falcon, and welded box-section side rails, including welded cross-members. Although hardtop Mustangs accounted for the highest sales, durability problems with the new frame led to the engineering of a convertible first, which ensured adequate stiffness. Overall length of the Mustang and Falcon was identical, although the Mustang’s wheelbase was slightly shorter. With an overall width of 68.2 in (1,732 mm), it was 2.4 in (61 mm) narrower, yet the wheel track was nearly identical. Shipping weight, approximately 2,570 lb (1,166 kg) with the straight six-cylinder engine, was also similar to the Falcon. A fully equipped V8 model weighed approximately 3,000 lb (1,361 kg). Although most of the mechanical parts were from the Falcon, the Mustang’s body was completely different; sporting a shorter wheelbase, wider track, lower seating position and lower overall height. An industry first, the “torque box” was an innovative structural system that greatly stiffened the Mustang’s construction and helped contribute to better handling. The car was launched in 17th April 1964, as a hardtop and a convertible, with the fastback version following in August. It was an instant sensation, with demand massively exceeding supply. Since it was introduced four months before the normal start of the 1965 production year and manufactured alongside 1964 Ford Falcons and 1964 Mercury Comets, the earliest Mustangs are widely referred to as the 1964½ model. Nevertheless, all “1964½” cars were given 1965 U.S. standard VINs at the time of production, and – with limited exception to the earliest of promotional materials – were marketed by Ford as 1965 models. The low-end model hardtop used a “U-code” 170 cu in (2.8 litre) straight-6 engine borrowed from the Falcon, as well as a three-speed manual transmission and retailed for US$2,368. Standard equipment for the early 1965 Mustangs included black front seat belts, a glove box light, and a padded dash board. Production began in March 1964 and official introduction following on April 17 at the 1964 World’s Fair. V8 models got a badge on the front fender that spelled out the engine’s cubic inch displacement (“260” or “289”) over a wide “V.” This emblem was identical to the one on the 1964 Fairlane. Several changes to the Mustang occurred at the start of the “normal” 1965 model year in August 1964, about four months after its introduction. These cars are known as “late 65’s”. The engine lineup was changed, with a 200 cu in (3.3 litre) “T-code” engine that produced 120 hp. Production of the Fairlane’s “F-code” 260 cu in (4.3 litre) engine ceased when the 1964 model year ended. It was replaced with a new 200 hp “C-code” 289 cu in (4.7 litre) engine with a two-barrel carburettor as the base V8. An “A-code” 225 hp four-barrel carburettor version was next in line, followed by the unchanged “Hi-Po” “K-code” 271 hp 289. The DC electrical generator was replaced by a new AC alternator on all Fords (a way to distinguish a 1964 from a 1965 is to see if the alternator light on the dash says “GEN” or “ALT”). The Mustang GT version was introduced as the “GT Equipment Package” and included a V8 engine (most often the 225 hp 289), grille-mounted fog lamps, rocker panel stripes, and disc brakes. In the interior the GT option added a different instrument panel that included a speedometer, fuel gauge, temp. gauge, oil pressure gauge and ammeter in five round dials (the gauges were not marked with numbers, however.) A four-barrel carburettor engine was now available with any body style. Additionally, reverse lights were an option added to the car from August 1964 production. In 1965, the Shelby Mustang was born, it was available only in newly introduced fastback body version with its swept-back rear glass and distinctive ventilation louvres. The standard interior features of the 1965 Mustang included adjustable driver and passenger bucket seats, an AM radio, and a floor mounted shifter in a variety of colour options. Ford added additional interior options during the 1965 model year. The Interior Decor Group was popularly known as “Pony Interior” due to the addition of embossed running ponies on the seat fronts, and also included integral armrests, woodgrain appliqué accents, and a round gauge cluster that would replace the standard Falcon instrumentation. Also available were sun visors, a (mechanical) remote-operated mirror, a floor console, and a bench seat. Ford later offered an under-dash air-conditioning unit, and discontinued the vinyl with cloth insert seat option, offered only in early 1965 models. One option designed strictly for fun was the Rally-Pac. Introduced in 1963 after Ford’s success at that year’s Monte Carlo Rally and available on other Ford and Mercury compacts and intermediates, the Rally-Pac was a combination clock and tachometer mounted to the steering column. It was available as a factory ordered item for US$69.30. Installed by a dealer, the Rally-Pac cost US$75.95.A 14″ rim option was available for Rally-pac and GT350R vehicles widening front and rear track to 57.5″. Reproductions are presently available from any number of Mustang restoration parts sources. A compass, rear seat belts, A/C, and back-up lights were also optional. The 1966 Mustang debuted with moderate trim changes including a new grille, side ornamentation, wheel covers and filler cap. Ford’s new C-4 “cruise-o-matic” three-speed auto transmission became available for the 225 hp V8. The 289 “HiPo” K-code engine was also offered with a c4 transmission, but it had stronger internals and can be identified by the outer casing of the servo which is marked with a ‘C’. The long duration solid-lifter camshaft that allowed the high revving 289 to make the horsepower it was known for, was not friendly for a low stall speed automatic torque converter. The “HiPo” could be spotted very easily by the 1-inch-thick vibration damper, (as compared to 1/2 inch on the 225-hp version) and the absence of a vacuum advance unit on the dual point distributor. With the valve covers off, there is a large letter “K” stamped between the valve springs, along with screw in studs (vs. a pressed in stud for other 289s) for the adjustable rocker arms. A large number of new paint and interior color options, an AM/eight-track sound system, and one of the first AM/FM mono automobile radios were also offered. It also removed the Falcon instrument cluster; the previously optional features, including the round gauges and padded sun visors, became standard equipment. The Mustang would be the best-selling convertible in 1966, with 72,119 sold, beating the number two Impala by almost 2:1. The 1965 and 1966 Mustangs are differentiated by variations in the exterior, despite similar design. These variations include the emblem on the quarter-panels behind the doors. From August 1964 production, the emblem was a single vertical piece of chrome, while for 1966 models the emblem was smaller in height and had three horizontal bars extending from the design, resembling an “E”. The front intake grilles and ornaments were also different. The 1965 front grille used a “honeycomb” pattern, while the 1966 version was a “slotted” style. While both model years used the “Horse and Corral” emblem on the grille, the 1965 had four bars extending from each side of the corral, while on the 1966, these bars were removed. The 1966 model year saw introduction of ‘High Country Special’ limited edition, 333 of them were sold in Colorado, Wyoming, and Nebraska. When Ford wanted to introduce the Mustang in Germany, they discovered that Krupp company had already registered the name for a truck. The German company offered to sell the rights for US$10,000. Ford refused and removed Mustang badges from exported units, instead naming the cars as T-5 (a pre-production Mustang project name) for the German market until 1979 when Krupp copyrights expired. In 1965, Harry Ferguson Research purchased 3 Mustang notchbacks and converted them to 4×4 in an attempt to sell potential clients on their FF AWD system. A similar system was used in the Ferguson P99 Formula One car, and would go on to be featured in the Jensen FF, widely considered the first AWD passenger car. As in the Jensen FF, the AWD Mustangs also featured an ABS braking system, long before such a feature was commonplace. Ford Australia organised the importation and conversion of 1966 Mustang to right-hand-drive for the Australian market. This coincided with the launch of new XR Falcon for 1966, which was marketed as “Mustang-bred Falcon”. To set the official conversion apart from the cottage industry, the RHD Mustangs were called “Ford Australia Delivered Mustang” and had compliance plates similar to XR Falcon. About 209 were imported to Australia with 48 units were converted in 1965 while the further 161 were done in 1966. The 1967 model year Mustang was the first redesign of the original model. Ford’s designers began drawing up a larger version even as the original was achieving sales success, and while “Iacocca later complained about the Mustang’s growth, he did oversee the redesign for 1967 .” The major mechanical feature was to allow the installation of a big-block V8 engine. The overall size, interior and cargo space were increased. Exterior trim changes included concave taillights, side scoop (1967 model) and chrome (1968 model) side ornamentation, square rear-view mirrors, and usual yearly wheel and gas cap changes. The high-performance 289 option was placed behind the newer 335 hp 6.4 litre FE engine from the Ford Thunderbird, which was equipped with a four-barrel carburettor. During the mid-1968 model year, a drag racer for the street could be ordered with the optional 428 cu in (7.0 litre) Cobra Jet engine which was officially rated at 335 hp. All of these Mustangs were issued R codes on their VIN’s. The 1967 Deluxe Interior was revised, discontinuing the embossed running horse motif on the seat backs (the source for the “pony interior” nickname) in favor of a new deluxe interior package, which included special colour options, brushed aluminium (from August 1966 production) or woodgrain dash trim, seat buttons, and special door panels. The hardtop also included upholstered quarter trim panels, a carryover from the 1965-66 deluxe interior. The 1967 hardtop also had the chrome quarter trim caps, carried over from 1965-66, but these were painted to match the interior in 1968 models. The 1967 deluxe interior included stainless steel-trimmed seat back shells, similar to those in the Thunderbird. These were dropped at the end of the 1967 model year, and were not included in the woodgrain-trimmed 1968 interior. The deluxe steering wheel, which had been included in the deluxe interior for the 1965-66, became optional, and could also be ordered with the standard interior. The 1968 models that were produced from January 1968 were also the first model year to incorporate three-point lap and shoulder belts (which had previously been optional, in 1967-68 models) as opposed to the standard lap belts. The air-conditioning option was fully integrated into the dash, the speakers and stereo were upgraded, and unique center and overhead consoles were options. The fastback model offered the option of a rear fold-down seat, and the convertible was available with folding glass windows. Gone was the Rally-Pac, since the new instrument cluster had provisions for an optional tachometer and clock. Its size and shape also precluded the installation of the accessory atop the steering column. The convenience group with four warning lights for low fuel, seat belt reminder, parking brake not released, and door ajar were added to the instrument panel, or, if one ordered the optional console and A/C, the lights were mounted on the console. Changes for the 1968 model increased safety with a two-spoke energy-absorbing steering wheel, along with newly introduced shoulder belts. Other changes included front and rear side markers, “FORD” lettering removed from hood, rearview mirror moved from frame to windscreen, a 302 cu in (4.9 litre) V8 engine was now available, and C-Stripe graphics were added. The California Special Mustang, or GT/CS, was visually based on the Shelby model and was only sold in Western states. Its sister, the ‘High Country Special’, was sold in Denver, Colorado. While the GT/CS was only available as a coupe, the ‘High Country Special’ model was available in fastback and convertible configurations during the 1966 and 1967 model years, and as a coupe for 1968. The 1968 Ford Mustang GT Fastback reached iconic status after it was featured in the 1968 film Bullitt, starring Steve McQueen. In the film, McQueen drove a modified 1968 Mustang GT 2+2 Fastback chasing a Dodge Charger through the streets of San Francisco. There were further annual updates until the model’s replacement in 1973, but with each the car got steadily bigger and less overtly sporty. Sales reduced, too, suggesting that Ford were losing their way. Mustang II did not fix that, of course, but gradually, the legendary nameplate has returned to delivering the same sort of promise as those early and much loved cars were able to do.

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Round off the various Fords that I photographed were a couple of more recent Mustang models from the current and preceding generations.

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HONDA

This is an example of the eight generation Accord, and the last one to be sold in Europe. The Accord family diverged from the fifth generation with different cars for the US market from the rest of the world although this model was actually sold in the US badged as the Acura TSX. Honda revealed some detail shots and a teaser video of the European-spec Accord in January 2008, before debuting it at the Geneva Motor Show in March. The new Accord came in both sedan and wagon forms, offering a host of engine and transmission options. Available engines are the 2.0-litre i4, 2.4-litre i4, and 3.5-litre V6 i-VTEC petrol engines, as well as the 2.2-litre i-DTEC diesel engine. All engines come with a 6-speed manual transmission, while the petrol engines get in addition to that a 5-speed automatic transmission. Dimensionally, the Accord has become longer, wider, and lower for a sleek, sporty look, along with sharper body lines and slightly redesigned headlights. Honda has built the Accord on its new ACE body structure, available with a host of new safety features. In Australia, the Euro variant of this model won the prestigious Wheels Car of the Year award for 2008. It also won the South African CAR OF THE YEAR for 2009. In March 2012, Wheels magazine Australia compared 11 mid-sized sedans, and the Accord Euro won top position. Production ended at the end of February 2015 for Australian and New Zealand spec models, however there should be enough cars built to last until the end of 2015. Sales also ended in Europe, Israel and Turkey as well. The Accord Euro-R, as seen here, is the CL7 Accord Euro-R, produced from December 2002 to 2008 and built in Sayama, Japan for the JDM market. It is powered by a 2.0 L (1,998 cc) K20AI-VTEC motor with 220 PS (217 bhp) at 8,000 rpm and 206 Nm (152 lb/ft) of torque at 7,000 rpm. The engine run on 11.5:1 compression and has a redline of 8,300 rpm. It also has the standard Type R modifications, including Recaro seats, a limited-slip-differential and independent double wishbone suspension.

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HYUNDAI

The i30N was launched a couple of years ago, to critical acclaim from the motoring press and motoring enthusiasts, so it was perhaps not a surprise to see one here. This one belongs to my friend Dawn Williams, whose other car is an Abarth which is what I see her bringing to events more frequently. But then, I was not in my Abarth, either!

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JAGUAR

Jaguar stunned the world with the XK120 that was the star of the Earls Court Motor Show in 1948. Seen in open two seater form, the car was a testbed and show car for the new Jaguar XK engine. The display car was the first prototype, chassis number 670001. It looked almost identical to the production cars except that the straight outer pillars of its windscreen would be curved on the production version. The roadster caused a sensation, which persuaded Jaguar founder and design boss William Lyons to put it into production. Beginning in 1948, the first 242 cars wore wood-framed open 2-seater bodies with aluminium panels. Production switched to the 112 lb heavier all-steel in early 1950. The “120” in the name referred to the aluminium car’s 120 mph top speed, which was faster with the windscreen removed. This made it the world’s fastest production car at the time of its launch. Indeed, on 30 May 1949, on the empty Ostend-Jabbeke motorway in Belgium, a prototype XK120 timed by the officials of the Royal Automobile Club of Belgium achieved an average of runs in opposing directions of 132.6 mph with the windscreen replaced by just one small aeroscreen and a catalogued alternative top gear ratio, and 135 mph with a passenger-side tonneau cover in place. In 1950 and 1951, at a banked oval track in France, XK120 roadsters averaged over 100 mph for 24 hours and over 130 mph for an hour, and in 1952 a fixed-head coupé took numerous world records for speed and distance when it averaged 100 mph for a week. Roadsters were also successful in racing and rallying. The first production roadster, chassis number 670003, was delivered to Clark Gable in 1949. The XK120 was ultimately available in two open versions, first as an open 2-seater described in the US market as the roadster (and designated OTS, for open two-seater, in America), and from 1953 as a drophead coupé (DHC); as well as a closed, or fixed head coupé (FHC) from 1951. A smaller-engined version with 2-litres and 4 cylinders, intended for the UK market, was cancelled prior to production.

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One of the most loved Jaguars of all time, both when it was new, and still now, is the Mark 2 saloon. Many will tell you that it is not the 3 Series BMW that “invented” the “compact sports saloon” car class, but this model, which dates back to 1959. A thorough revision of the small Jaguar saloon that had joined the range in 1955, the Mark 2 was notable in that it was the first car to use the Arabic numeral in its name, as opposed to the Roman numerals of the larger Jaguar models. At launch, the earlier model which had hitherto been known by its engine size was christened the Mark 1. Although clearly based on that car, the updated car looked significantly different, with an increase of 18% in cabin glass area greatly improving visibility. The car was re-engineered above the waistline. Slender front pillars allowed a wider windscreen and the rear window almost wrapped around to the enlarged side windows now with the familiar Jaguar D-shape above the back door and fully chromed frames for all the side windows. The radiator grille was amended and larger side, tail and fog lamps repositioned. Inside a new heating system was fitted and ducted to the rear compartment (although still notoriously ineffective). There was an improved instrument layout that became standard for all Jaguar cars until the XJ Series II of 1973. As well as the familiar 2.4 and 3.4 litre engines, what made this car particularly special was that it was also offered with the potent 220 bhp 3.8 litre unit that was fitted to the XK150 and which would later see service in the E Type. This gave the car a 0 – 60 time of around 8.5 seconds and a top speed of 125 mph. No wonder that the Mark 2 became popular as a get-away car for the criminal fraternity, and to keep up with and catch them, many police forces bought the car as well. With revised suspension and standard four wheel disc brakes, the car was effective on the track, taking plenty of class wins when new, and it is still popular in historic racing circles today. The quickest and most successful private entries came from John Coombs, a man with significant race experience who operated a large Jaguar dealership in Guildford. Coombs would undertake modifications to meet the demands of his customers, so not all the cars that he worked on are the same. Jaguar replaced the Mark 2 with simplified and slightly more cheaply finished 240 and 340 models, as an interim measure until an all-new model was ready to take over from them. The 3.8 litre disappeared from the range at this time, but in the 7 years it had been in production, it had been the best seller of the range, with around 30,000 cars produced, as compared to 28,666 of the 3.4 litre and 25,741 of the 2.4 litre model.

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The second generation of the XK debuted in 2005 at the Frankfurt Motor Show in Germany, styled by Jaguar’s chief designer Ian Callum. The X150’s grille was designed to recall the 1961 E-Type. The XK is an evolution of the Advanced Lightweight Coupé (ALC) introduced at the 2005 North American International Auto Show. The XK features a bonded and riveted aluminium chassis shared with the XJ and body panels, both a first for a Jaguar grand tourer. Compared to the XK (X100), the XK (X150) is 61.0 mm (2.4 in) wider and is 162.6 mm (6.4 in) longer. It is also 91 kg (200 lb) lighter resulting in performance and fuel consumption improvements. Unlike the X100, the X150 has no wood trim on the interior offered as standard equipment. The interior featured steering column mounted shift paddles. A more powerful XKR version having a supercharged variant of the engine was introduced in 2007. The XK received a facelift in 2009,[10] with minor alterations to front and rear lights and bumper designs, together with the introduction of a new 5.0-litre V8 for both the naturally aspirated XK and the supercharged XKR. The interior also received some changes, in particular the introduction of the XF style rotary gear selector mated to the new ZF automatic transmission. The XK received a second and more minor facelift in 2011 with new front bumper and light design, which was presented at the New York Auto Show. A higher performance variant of the XKR, the XKR-S, was introduced at the Geneva Motor Show in 2012. The XKR-S gained an additional 40 bhp over the XKR bringing the 0-60 mph acceleration time down to 4.4 seconds and the top speed up to 300 km/h (186 mph). A convertible version of the XKR-S was introduced in 2012. Production of the XK ended in July 2014 without a replacement model.

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Completing the array of Jaguar models was the current sports car, the F Type.

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MARAUDER

Perhaps the rarest car of the day was this Marauder. Marauder Car Company Limited was a British car venture by ex-Rover engineers George Mackie and Peter Wilks. After successfully racing their single-seater Marauder racing car the pair left Rover in 1950 and formed Wilks, Mackie and Company to exploit their idea of a two-seater sports car based on the new Rover 75 chassis. In 1951 they changed the company’s name to Marauder Car Company. The design was largely the work of Peter Wilks and “Spen” King who, like Wilks, was a nephew of brothers Spencer and Maurice Wilks who ran Rover. Spencer King was later famous for his involvement in many Rover and Leyland Group designs. Though usually considered a sports car their new car was marketed as a Marauder Tourer. The car named the “A”, later joined by the more powerful “100”, was based on the Rover P4 75 with the chassis shortened by 9 inches (230 mm) from 111 inches (2,800 mm) to 102 inches (2,600 mm), the track remaining the same at 52 inches (1,300 mm). The suspension was stiffened retaining the coil sprung independent front suspension and elliptical sprung live rear axle. In view of the much lighter 2/3-seater (a single bench seat but the seats were separated on the “100”]) open coachwork the engine was moved back to improve handling and front / rear weight distribution. The Rover gearbox was retained with optional Laycock–de Normanville overdrive but not the Rover free wheel mechanism. The gearchange moved from column to floor. The 6-cylinder, inlet over exhaust valve, 2103 cc Rover engine was slightly modified with higher compression ratio to raise the output by 5 bhp to 80 bhp whilst the 100 version was bored out to 2392 cc and fitted with triple SU carburettors to give 105 bhp. The “A” was capable of 90 mph (145 km/h) and the “100” 100 mph (161 km/h) Manufacturing started in Dorridge, Solihull, West Midlands and later continued in Kenilworth, Warwickshire between 1950 and 1952. In 1951 Wilks, Mackie and Company’s name was changed to Marauder Car Company. The first few bodies were made by Richard Mead in his Dorridge works and used some Rover panels but later ones were made by Abbey Panels of Coventry. About 15 cars were made including 2 of the “100”s before rising costs and tax changes priced the cars out of the market. The UK government doubled the already high level of Purchase Tax on cars with a pre-tax price above £1000. In 1950 the car cost £1236 rising to over £2000 in 1952. Both George Mackie and Peter Wilks rejoined Rover.

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MASERATI

Sole Maserati at the event was my Ghibli.

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MERCEDES-BENZ

It is quite sobering to realise that the W201 is now almost a 40 year old design. Mercedes spent over £600 million researching and developing the 190 and subsequently said it was ‘massively over-engineered’. It marked a new venture for Mercedes-Benz, finally giving it a new smaller model to compete with the likes of the BMW 3 Series. The W201-based 190 was introduced in November 1982, and was sold in right-hand drive for the UK market from September 1983. Local red tape in Bremen (which produced commercial vehicles at the time) prevented Daimler-Benz from building the 190 there, so production was started in Sindelfingen at a capacity of just 140,000 units per year. Eventually after just the first year, Bremen was cleared for production of the 190, replacing its commercial vehicle lines, and there the 190 was built with the first running modifications since release. Initially there were just two models, the 190 and 190 E. Each was fitted with an M102 1,997 cc displacement engine. The 190 was fitted with an M102.921 90 hp engine and the 190 E fitted with an M102.962 122 hp engine. In September 1983, the 190 E 2.3 (2,299 cc) was released for the North American market only (although a 190 E 2.3 appeared in other countries later), fitted with a 113 hp M102.961 engine. This reduction in power was due to the emissions standards in the North American market at the time. The intake manifold, camshaft, and fuel injection system were refined in 1984, and the engine produced 122 hp. The carburettor 190 was revised in 1984 as well, increasing its horsepower rating to 105 hp. 1984 also saw the arrival of the 2.3-16 “Cosworth.” In 1985, the 190 E 2.3 now came fitted with the M102.985 engine, producing 130 hp until it was revised in 1987 to use Bosch KE3-Jetronic Injection, a different ignition system, and a higher compression ratio, producing 136 hp. 1987 marked the arrival of the first inline-six equipped 190, the 190 E 2.6. Fitted with the M103.940 engine, the 190 E 2.6 provided 160 hp with a catalyst and 164 hp without. In the North American market, the 190 E 2.6 was sold until 1993, the end of the W201 chassis’s production. From 1992-1993 the 2.6 was available as a special “Sportline” model, with an upgraded suspension and interior. The 190 E 2.3 was sold until 1988, then went on a brief hiatus until it was sold again from 1991 until 1993. The W201 190 D is known for its extreme reliability and ruggedness with many examples doing more than 500,000 miles without any major work. The 190 D was available in three different engines. The 2.0 was the baseline, and was never marketed in North America. The 2.2, with the same power as the 2.0, was introduced in September 1983. It was only available in model years 1984 and 1985, and only in the USA and Canada. The 2.5 was available in the late 80’s and early 90’s. The 2.5 Turbo, while sold in mainland Europe, but not the UK for many years, was available to American buyers only in 1987 and is now somewhat of a collectors item. The exterior of the 2.5 Turbo is different from other models in that it has fender vents in the front passenger side wing for the turbo to breathe. Although the early cars were very basic and not very powerful, they sold strongly, and things only got better as the model evolved, with the result that over 1.8 million had been produced by the time the W202 model arrived in 2002 to replace it.

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MG

As one of Britain’s most popular classic cars, it was no surprise to find several examples of the MGB here, with cars from throughout the model’s long life, both in Roadster and MGB GT guise, as well as one of the short-lived V8 engined cars. Launched in October 1962, this car was produced for the next 18 years and it went on to become Britain’s best selling sports car. When first announced, the MGB was an innovative, modern design, with a monocoque structure instead of the traditional body-on-frame construction used on both the MGA and MG T-types and the MGB’s rival, the Triumph TR series, though components such as the brakes and suspension were developments of the earlier 1955 MGA and the B-Series engine had its origins back in 1947. The lightweight design reduced manufacturing costs while adding to overall vehicle strength, and with a 95hp 3-bearing 1798cc engine under the bonnet, performance was quite respectable with a 0–60 mph time of just over 11 seconds. The car was rather more civilised than its predecessor, with wind-up windows now fitted as standard, and a comfortable driver’s compartment offered plenty of legroom. The roadster was the first of the MGB range to be produced. The body was a pure two-seater but a small rear seat was a rare option at one point. By making better use of space the MGB was able to offer more passenger and luggage accommodation than the earlier MGA while being 3 inches shorter overall. The suspension was also softer, giving a smoother ride, and the larger engine gave a slightly higher top speed. The four-speed gearbox was an uprated version of the one used in the MGA with an optional (electrically activated) overdrive transmission. A five-bearing engine was introduced in 1964 and a number of other modifications crept into the specification. In late 1967, sufficient changes were introduced for the factory to define a Mark II model. Alterations included synchromesh on all 4 gears with revised ratios, an optional Borg-Warner automatic gearbox, a new rear axle, and an alternator in place of the dynamo with a change to a negative earth system. To accommodate the new gearboxes there were significant changes to the sheet metal in the floorpan, and a new flat-topped transmission tunnel. US market cars got a new safety padded dashboard, but the steel item continued for the rest of the world. Rostyle wheels were introduced to replace the previous pressed steel versions in 1969 and reclining seats were standardised. 1970 also saw a new front grille, recessed, in black aluminium. The more traditional-looking polished grille returned in 1973 with a black “honeycomb” insert. Further changes in 1972 were to the interior with a new fascia. To meet impact regulations, in late 1974, the chrome bumpers were replaced with new, steel-reinforced black rubber bumpers, the one at the front incorporating the grille area as well, giving a major restyling to the B’s nose, and a matching rear bumper completed the change. New US headlight height regulations also meant that the headlamps were now too low. Rather than redesign the front of the car, British Leyland raised the car’s suspension by 1-inch. This, in combination with the new, far heavier bumpers resulted in significantly poorer handling. For the 1975 model year only, the front anti-roll bar was deleted as a cost-saving measure (though still available as an option). The damage done by the British Leyland response to US legislation was partially alleviated by revisions to the suspension geometry in 1977, when a rear anti-roll bar was made standard equipment on all models. US emissions regulations also reduced horsepower. In March 1979 British Leyland started the production of black painted limited edition MGB roadsters for the US market, meant for a total of 500 examples, but due to a high demand, production ended with 6682 examples. The United Kingdom received bronze painted roadsters and a silver GT model limited editions. The production run of home market limited edition MGBs was split between 421 roadsters and 579 GTs. Meanwhile, the fixed-roof MGB GT had been introduced in October 1965, and production continued until 1980, although export to the US ceased in 1974. The MGB GT sported a ground-breaking greenhouse designed by Pininfarina and launched the sporty “hatchback” style. By combining the sloping rear window with the rear deck lid, the B GT offered the utility of a station wagon while retaining the style and shape of a coupe. This new configuration was a 2+2 design with a right-angled rear bench seat and far more luggage space than in the roadster. Relatively few components differed, although the MGB GT did receive different suspension springs and anti-roll bars and a different windscreen which was more easily and inexpensively serviceable. Although acceleration of the GT was slightly slower than that of the roadster, owing to its increased weight, top speed improved by 5 mph to 105 mph because of better aerodynamics. 523,826 examples of the MGB of all model types were built, and although many of these were initially sold new in North America, a lot have been repatriated here.

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MORRIS

No surprise to see the evergreen Morris Minor here as this is a very popular classic. The Minor was conceived in 1941. Although the Nuffield Organization was heavily involved in war work and there was a governmental ban on civilian car production, Morris Motors’ vice chairman, Miles Thomas, wanted to prepare the ground for new products to be launched as soon as the war was over. Vic Oak, the company’s chief engineer, had already brought to Thomas’ attention a promising junior engineer, Alec Issigonis, who had been employed at Morris since 1935 and specialised in suspension design but he had frequently impressed Oak with his advanced ideas about car design in general. Issigonis had come to Oak’s particular attention with his work on the new Morris Ten, which was in development during 1936/7. This was the first Morris to use unitary construction and was conceived with independent front suspension. Issigonis designed a coil-sprung wishbone system which was later dropped on cost grounds. Although the design would later be used on the MG Y-type and many other post-war MGs the Morris Ten entered production with a front beam axle. Despite his brief being to focus on the Ten’s suspension Issigonis had also drawn up a rack and pinion steering system for the car. Like his suspension design this was not adopted but would resurface in the post-war years on the MG Y-type, but these ideas proved that he was the perfect candidate to lead the design work on a new advanced small car. With virtually all resources required for the war effort, Thomas nonetheless approved the development of a new small family car that would replace the Morris Eight. Although Oak (and Morris’ technical director, Sidney Smith) were in overall charge of the project it was Issigonis who was ultimately responsible for the design, working with only two other draughtsmen. Thomas named the project ‘Mosquito’ and ensured that it remained as secret as possible, both from the Ministry of Supply and from company founder William Morris (now Lord Nuffield), who was still chairman of Morris Motors and, it was widely expected, would not look favourably on Issigonis’ radical ideas. Issigonis’ overall concept was to produce a practical, economical and affordable car for the general public that would equal, if not surpass, the convenience and design quality of a more expensive car. In later years he summed up his approach to the Minor; that he wanted to design an economy car that “the average man would take pleasure in owning, rather than feeling of it as something he’d been sentenced to” and “people who drive small cars are the same size as those who drive large cars and they should not be expected to put up with claustrophobic interiors.” Issigonis wanted the car to be as spacious as possible for its size and comfortable to drive for inexperienced motorists. Just as he would with the Mini ten years later, he designed the Mosquito with excellent roadholding and accurate, quick steering not with any pretence of making a sports car, but to make it safe and easy to drive by all. As work proceeded, there were plenty of battle to overcome, to get Issigonis’ ideas approved, and not all of them were. The production car, called the Minor was launched at the British Motor Show at Earls Court in London on October 27, 1948. At the same show Morris also launched the new Morris Oxford and Morris Six models, plus Wolseley variants of both cars, which were scaled-up versions of the new Minor, incorporating all the same features and designed with Issigonis’ input under Vic Oak’s supervision. Thus Issigonis’ ideas and design principles underpinned the complete post-war Morris and Wolseley car ranges. The original Minor MM series was produced from 1948 until 1953. It included a pair of four-seat saloons, two-door and (from 1950) a four-door, and a convertible four-seat Tourer. The front torsion bar suspension was shared with the larger Morris Oxford MO, as was the almost-unibody construction. Although the Minor was originally designed to accept a flat-4 engine, late in the development stage it was replaced by a 918 cc side-valve inline-four engine, little changed from that fitted in the 1935 Morris 8, and producing 27.5 hp and 39 lbf·ft of torque. This little engine pushed the Minor to just 64 mph but delivered 40 mpg. Brakes were four-wheel drums. Early cars had a painted section in the centre of the bumpers to cover the widening of the production car from the prototypes. This widening of 4 inches is also visible in the creases in the bonnet. Exports to the United States began in 1949 with the headlamps removed from within the grille surround to be mounted higher on the wings to meet local safety requirements. In 1950 a four-door version was released, initially available only for export, and featuring from the start the headlamps faired into the wings rather than set lower down on either side of the grille. The raised headlight position became standard on all Minors in time for 1951. From the start, the Minor had semaphore-type turn indicators, and subsequent Minor versions persisted with these until 1961 An Autocar magazine road test in 1950 reported that these were “not of the usual self-cancelling type, but incorporate[d] a time-basis return mechanism in a switch below the facia, in front of the driver”. It was all too easy for a passenger hurriedly emerging from the front passenger seat to collide with and snap off a tardy indicator “flipper” that was still sticking out of the B-pillar, having not yet been safely returned by the time-basis return mechanism to its folded position. Another innovation towards the end of 1950 was a water pump (replacing a gravity dependent system), which permitted the manufacturer to offer an interior heater “as optional equipment”. When production of the first series ended, just over a quarter of a million had been sold, 30 per cent of them the convertible Tourer model. In 1952, the Minor line was updated with an Austin-designed 803 cc overhead valve A-series engine, replacing the original side-valve unit. The engine had been designed for the Minor’s main competition, the Austin A30, but became available as Austin and Morris were merged into the British Motor Corporation. The new engine felt stronger, though all measurements were smaller than the old. The 52 second drive to 60 mph was still calm, with 63 mph as the top speed. Fuel consumption also rose to 36 mpg. An estate version was introduced in 1952, known as the Traveller (a Morris naming tradition for estates, also seen on the Mini). The Traveller featured an external structural ash (wood) frame for the rear bodywork, with two side-hinged rear doors. The frame was varnished rather than painted and a highly visible feature of the body style. Commercial models, marketed as the Morris Quarter Ton Van and Pick-up were added in May 1953. Rear bodies of the van versions were all steel. The 4-seat convertible and saloon variants continued as well. The car was again updated in 1956 when the engine was increased in capacity to 948 cc. The two-piece split windscreen was replaced with a curved one-piece one and the rear window was enlarged. In 1961 the semaphore-style trafficators were replaced by the flashing direction indicators, these were US-style red at the rear (using the same bulb filament as the brake lamp) and white at the front (using a second brighter filament in the parking lamp bulb) which was legal in the UK and many export markets at the time (such as New Zealand). An upmarket car based on the Minor floorpan using the larger BMC B-Series engine was sold as the Riley One-Point-Five/Wolseley 1500 beginning in 1957: versions of this Wolseley/Riley variant were also produced by BMC Australia as the Morris Major and the Austin Lancer. In December 1960 the Morris Minor became the first British car to sell more than 1,000,000 units. To commemorate the achievement, a limited edition of 350 two-door Minor saloons (one for each UK Morris dealership) was produced with distinctive lilac paintwork and a white interior. Also the badge name on the side of the bonnet was modified to read “Minor 1,000,000” instead of the standard “Minor 1000”. The millionth Minor was donated to the National Union of Journalists, who planned to use it as a prize in a competition in aid of the union’s Widow and Orphan Fund. The company, at the same time, presented a celebratory Minor to London’s Great Ormond Street Hospital for Sick Children, but this car was constructed of cake. The final major upgrades to the Minor were made in 1962. Although the name Minor 1000 was retained, the changes were sufficient for the new model to be given its own ADO development number. A larger version of the existing A-Series engine had been developed in conjunction with cylinder head specialist Harry Weslake for the then new ADO16 Austin/Morris 1100 range. This new engine used a taller block than did the 948 cc unit, with increased bore and stroke bringing total capacity up to 1,098 cc. Although fuel consumption suffered moderately at 38 mpg, the Minor’s top speed increased to 77 mph with noticeable improvements in low-end torque, giving an altogether more responsive drive. Other changes included a modified dashboard layout with toggle switches, textured steel instrument binnacle, and larger convex glove box covers. A different heater completed the interior upgrade, whilst the larger combined front side/indicator light units, common to many BMC vehicles of the time, were fitted to the front wings. These now included a separate bulb and amber lens for indicators while larger tail lamp units also included amber rear flashers. During the life of the Minor 1000 model, production declined. The last Convertible/Tourer was manufactured on 18 August 1969, and the saloon models were discontinued the following year. Production of the more practical Traveller and commercial versions ceased in 1972, although examples of all models were still theoretically available from dealers with a surplus of unsold cars for a short time afterwards. 1,619,857 Minors of all variants were ultimately sold.

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NISSAN

There were a couple of examples of current Nissan sports cars, the R35 generation GT-R and the long-running 370Z here.

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PEUGEOT

Before the 205, Peugeot was considered the most conservative of France’s “big three” car manufacturers, producing large saloons such as the 504 and 505, although it had entered the modern supermini market in 1973 with the Peugeot 104. The genesis of the 205 lay within Peugeot’s takeover in 1978 of Chrysler’s European divisions Simca and the former Rootes Group, which had the necessary expertise in making small cars including the Simca 1100 in France and Hillman Imp in Britain. It was around this time that Peugeot began to work on the development of a new supermini for the 1980s. It was launched on 24 February 1983, and was launched in right-hand drive form for the UK market in September that year. Shortly after its launch, it was narrowly pipped to the European Car of the Year award by the similar sized Fiat Uno, but ultimately (according to the award organizers) it would enjoy a better image and a longer high market demand than its Italian competitor. It was one of five important small cars to be launched onto the European market within a year of each other: the other four were the Uno, the second generation Ford Fiesta, the original Opel Corsa (sold as the Vauxhall Nova on the British market) and the original Nissan Micra. Its launch also closely followed that of the Austin Metro and Volkswagen Polo Mk2. The styling of the 205 is often thought to be a Pininfarina design, although Gerard Welter claims that it is an in-house design; Pininfarina only styled the Cabriolet. It is often credited as the car that turned Peugeot’s fortunes around. The fully independent suspension used the now standard PSA Peugeot Citroën layout that had debuted in the Peugeot 305 estate. A key ingredient of the success of the 205, it had MacPherson struts at the front and trailing arms with torsion bars at the rear. The rear suspension was very compact, designed to minimise suspension intrusion into the boot, giving a wide flat loadspace, while providing excellent ride and handling. Early 205s used the X petrol engine [n 1] from the older Peugeot 104, although these were later (1987–1988) replaced with the newer XU and TU-series engines, which were of PSA design. Engines ranged in displacement from 954 cc to 1905 cc, in carburettor or fuel injected versions. The diesel models employed the PSA XUD engine, lifted from the Citroën BX which was introduced in September 1982. These engines had a capacity of 1769 cc (XUD7) and 1905 cc (XUD9) and are closely related to the XU5 and XU9 petrol engines in the BX16 and BX19 of the time. The diesel engines were world-beating and so petrol-like that many buyers were won over by petrol car performance combined with diesel economy. For instance, the 205 GRD (1.8 Diesel, 59 bhp, 78 lb/ft (105.8 Nm)) was as fast as, yet smoother than, the 205 GR (1.4 Petrol, 59 bhp, 78 lb/ft (105.8 Nm)), due to the engine developing peak torque at much lower rpm, while using much less fuel. There were various versions intended for commercial use, such as the two-seater XA-series. There was also the “205 Multi”, a tall-bodied special version on XA or XE-basis built by independent coachbuilders like Gruau and Durisotti. Gruau called their XA-based two-seater version the “VU”, while the five-seat XE-based version was called the “VP”. Durisotti began building the 205 Multi in 1986; it was called the “205 Multi New Look”. The 205 was an instant hit, and its styling was echoed in every Peugeot model that was to follow. The exterior styling was never facelifted or significantly altered in its 15-year production run. There was a dashboard redesign for the 1988 model year, and in late 1990 the 205 received new door design and cards, clear front indicators, new ‘smoked’ rear light clusters, single point petrol injection and catalytic converters were introduced, to meet the new 1992 pollution limits. These updates came at a crucial time, as 1990 also saw the arrival of a completely new French competitor, the Renault Clio, while the Rover Metro and Volkswagen Polo were also heavily updated, and Ford had already replaced its Fiesta with a third generation model. Still, the 205 was still widely regarded in the motoring press as the benchmark car in this sector by 1990. At the beginning of 1993, Peugeot launched the 306, which officially replaced the 309; the arrival of this car also diminished the 205’s role (and its sales figures) in the Peugeot range, as had the arrival of the smaller 106 in September 1991 – although the final demise of the 205 was still some years away. The engines were continuously updated, with the new TU engines introduced in 1988. In 1991, the 205 dTurbo was launched with a powerful turbocharged version of the 1,769 cc xud diesel engine. After several years of gradually declining sales, the Peugeot 205 was discontinued in the United Kingdom in 1996. The Peugeot 205 was still offered in the “Sacré Numéro” and “Génération” models until the end of the production in 1998. The last models were GLD 1.8 configuration and were sold in Argentina. Most of the later European versions were only sold in France. Due to the pressure from the market, with buyers wanting a Peugeot supermini in the mould of the 205 again, the company finally built a direct replacement in the 206, which was launched in 1998. 5,278,050 Peugeot 205s have been sold, and a significant percentage of them were still in circulation as of 2009. By 2014, there were still as many as 14,000 on the road in the United Kingdom, compared to the peak high of 374,773 in 1994. With potentially as many 400,000 sales in the UK, it became the best selling car ever sold by Peugeot in the UK – although its success was emulated a few years later by the larger 306 and later by the 206. It also helped boost the popularity of the Peugeot brand there, and was at least a factor in Peugeot’s decision to phase out the Talbot brand in the mid 1980s when launching new models to be built at the former Rootes Group plant near Coventry and the former Simca plant at Poissy.

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Mindful of the success of the Golf GTi, in the class above, and how a small car with good handling could take more power, as the Mini Cooper had proved, Peugeot came up with the GTi in early 1984. The first models had a 1.6 litre XU5J engine, producing 105 PS, which was uprated in 1987 with a cylinder head with larger valves thus becoming XU5JA, which took the power output up to 115 bhp. Visually the car retained the good looks of the 3 door version of the regular models, but it featured plastic wheel arch extensions and trim, beefier front and rear bumper valances and judicious use of red badging and trim. The shell also underwent some minor changes, including larger wheel arches (to suit the larger wheels , and the suspension was redesigned and sat lower on the GTI with stiffer springs, different wishbones and a drop-linked anti-roll bar. Red was a dominant colour inside. The car was an instant hit. At the end of 1986, Peugeot followed up with a more potent model, the 1.9 GTi, whose XU9JA engine produced 128 PS. Internally the engine of this car and the 1.6 model are very similar, the main differences on 1.9 litre versions being the longer stroke, oil cooler, and some parts of the fuel injection system. The shorter stroke 1.6 litre engine is famed for being revvy and eager, while the 1.9 litre feels lazier and torquier. Outside the engine bay the main differences between the 1.6 GTi and the 1.9 GTi are half-leather seats on the 1.9 GTi vs. cloth seats and disc brakes all-round (1.9 GTi) vs. discs at the front and drum brakes at the back; as well as the 14-inch Speedline SL201 wheels on the 1.6 GTi vs. 15 inch Speedline SL299 alloys on the 1.9 GTi. The 205 is still often treated as a benchmark in group car tests of the newest GTI models or equivalent. Peugeot itself has never truly recreated this success in future GTI models, although they came very close with the highly regarded GTI-6 variant of the Peugeot 306.

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Launched in September 1991, the 106 was Peugeot’s entry level offering throughout its production life, and was initially sold only as a three door hatchback, with a five door hatchback joining the range in the beginning of 1992. The “10” line of Peugeot superminis had commenced in 1972 with the launch of the 104, one of the first modern European superminis. The 104 was effectively replaced by the Peugeot 205 in 1983, but remained in production for some markets until 1988. There was no “105”. The 106 was introduced as a three door hatchback in continental Europe in September 1991, and two months later in the United Kingdom. The initial engine range had 1.0, 1.1 and 1.4 petrol engines, as well as a 1.5 diesel. The early 1.0 and 1.1s were carburetted, but were replaced with fuel injection after a year due to EC emissions requirements. The 106 was updated in July 1996, with changes including the introduction of side impact bars and availability of driver and passenger airbags for the first time, with the new 1.6 GTI joining the range as the spiritual successor to the hugely popular and highly regarded 205 GTI, which had been discontinued in 1994. In January 1996, the Peugeot 106 also formed the basis for the near identical looks and size Citroën Saxo. Marketed as having “fewer frills, more thrills”, the Rallye version had trademark steel wheels painted white. Power steering, central locking, and electric windows were omitted to keep the weight down to 825 kilograms. There were pre and post facelift versions of the 106 Rallye known to enthusiasts as S1 and S2 models, with the latter having a 103bhp 1.6 litre (TU5J2) engine in place of the original high revving Rallye specific 1.3 100bhp (TU2J2) engine fitted to pre facelift cars. Contrary to some sources, the S1 models did not share the same engine with the 205 Rallye and AX Sport, which used a carburettor TU24 engine. The dimensions of the aluminium S1 block resemble those of the 1.4 iron block with slightly lowered capacity to comply with the rules of the lower French rally classes at the time.(Under 1.300cc) The S1 (TU2J2)and S2 (TU5J2) were fuel injected, employing Magneti Marelli multi point fuel injection systems. The S1 Rallye were designed as a homologation special to compete in the 1300cc rally class. It featured a four cylinder, 8 valve, high compression engine with an aggressive cam profile designed to come ‘on song’ between 5400 and the 7200rpm redline. This engine coupled to a short ratio five speed gearbox made the 1.3 more of a sprinter than a cruiser. 70mph on the motorway was a noisy 4,000rpm in fifth gear, but given enough tarmac, the little 1.3 would redline in top gear at 115mph. The 106 was competitive in racing, but also made a practical small family car. All cars had steel wheels, and Rallye decals and seat coverings featuring a one or three colour flash, which again varied between early and late cars. With facelift came new top model named Peugeot 106 GTI with 1.6 litre 16 valves engine that produce 120hp. It came with new exterior body kit and new wheels. On some markets in Europe, it was badged S16 or Rallye. Production ceased in 2003. The 106’s successor, the Peugeot 107, along with rebadged versions, Citroën C1 and Toyota Aygo, was launched two years later in June 2005, as a joint venture with Toyota.

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The 306 was developed between 1990 and 1992 for a launch at the beginning of 1993. It was a replacement for the Peugeot 309 (which had broken with Peugeot’s normal ascending numbering system partly due to it being released before the older and larger Peugeot 305 was axed). Concept versions of the 306 were first seen around the end of 1990, although the motoring press initially reported that it was going to replace the smaller 205. However, by the end of 1991, Peugeot had confirmed that the new car was going to replace the 309, as well as some versions of the 205, which was going to remain in production for several more years, despite the launch of the entry-level 106 supermini in September 1991. Mechanically, the 306 is virtually identical to the Citroën ZX, which was launched two years before the 306: both cars use the same floorpan and core structure. The 306, with its attractive Peugeot 205 derived Pininfarina styling, was a more successful car than its twin. The Citroën Berlingo and Peugeot Partner were also built on the same platform. The chassis used by the 306 and ZX was also used in the ZX’s replacement, the Citroën Xsara. The sharing of platforms between Peugeot and Citroën has been parent company PSA Peugeot Citroën policy since the late 1970s, after the Peugeot takeover of the then bankrupt Citroën in the wake of the 1974 oil crisis. The first example was the Peugeot 104-based Citroën Visa and Citroën LNA (and the Talbot Samba). The 306 was released in March 1993 as a 3- and 5-door hatchback, with saloon and cabriolet models being introduced a year later. The Phase 1 model was known as the N3 in Australia and was introduced in 1994. A bewildering array of different model types were offered during the life of the Phase 1 model, including Genoa, XSS, XT, XRdt and XLd. Later were added various ‘performance’ models, such as the S16, XSi and GTI-6 (petrol) and the D-Turbo S (diesel). All variants of the 306, with the exception of the GTI-6 and cabriolet models, were priced very competitively. The initial petrol engines used were proven four-cylinder units, which had gained a solid reputation in Peugeot models such as the 205, 309 and 405. At first, all mainstream models were powered by derivatives of the TU series 8-valve engine, in 1.1-, 1.4- and 1.6-litre guises. The 1.1 was dropped quickly, but the 1.4 and particularly the 1.6 variants sold well, the latter offering a good balance between performance and economy. Three larger-capacity units were available, but restricted to automatic and performance models. These engines were developments of the larger XU series units which had been used in the 205 GTi 1.9, and larger 405 models. A 1.8-litre version powered cars with both manual (not many 1.8 manuals were produced) and automatic transmission, while two versions of the 2.0-litre engine in 8- and 16-valve guises powered the XSi and S16 models respectively. In Australia, the only engines available were the 1.8 and 2.0 L engines. Peugeot had an excellent reputation for its diesel engines, and the 306 was originally offered with the XUD series diesel engine in both normally aspirated and turbocharged forms. This engine was initially a 1769 cc unit, but its capacity was soon enlarged to 1905 cc. The turbocharged version quickly gained a reputation for being a good match for the exceptional handling of the 306. Not only did its outright performance match many similarly sized petrol cars – almost certainly a first for an affordable mainstream diesel – but the carefully designed installation ensured its considerable extra weight did not upset the car’s handling. The Indirect Injection XUD Diesel that uses the Ricardo Comet combustion chamber design, is popular for conversion to run on vegetable oil, as long as the Bosch Fuel System is fitted to the engine. The familiar range of PSA powertrains drove the front wheels of a conventionally designed chassis. At the front was a standard MacPherson strut layout with anti-roll bar, while the rear used the PSA Peugeot-Citroën independent trailing arm/torsion bar set up that was first introduced on the Peugeot 305 estate. However, PSA’s chassis engineers employed some unusual features, including passive rear wheel steering, though less than on the ZX, (by means of specially designed compliance bushes in the rear suspension), and in-house developed and constructed shock absorbers. At high mileages this is prone to wear of the axle mounting bushes which is easily fixed. It is also prone to wear in the rear axle trailing arm bearings, which then wear the trailing arm axle tubes, requiring an expensive rebuild or a replacement axle assembly. The diesel and larger capacity petrol engines are canted as far back as possible in the engine bay, in an effort to put as much weight as possible behind the front axle line, also reducing the centre of gravity, while improving weight distribution and minimising understeer. Trim levels were XN, XL, XR, XT and XS; XN being the most basic, and XT the highest specification. The XT was available in 5-door only, with the XR, XN and XL available in 3-door too. The D-Turbo and XSi were available in both 3- and 5-door, the XS and S16 only available in 3-door. There were no longer “X/G” designations (“X” indicating a 3-door, “G” indicating a 5-door). A diesel model could be identified with the addition of “d” after the spec level, and a turbodiesel with the addition of “dt”. There were special edition versions too, badged “Alpine” from 1994. (3-door only). Sedan specification was marked as SN, SL, SR, and ST. The sedan model, for many motorists provided an alternative to the domination of the car markets by hatchbacks. Peugeot created a D-Turbo “hot hatch” version, which was essentially a petrol XS model with the diesel unit installed. The 306 was not the first mainstream affordable performance diesel, with that plaudit arguably going to the MkII VW Golf GTD of the mid-1980s. However, the 306 D-turbo was the first to be commercially successful and sell in significant numbers, and this success effectively created the market for such performance oriented diesel cars. It was a popular seller in all its various phases throughout the life of the car.[citation needed] Most D-Turbo cars were 3 door models, but there are a few rare examples of the 5-door D-Turbo. The D-Turbo and XS variants were fitted as standard with front fog lights, body-coloured bumpers with deeper spoilers, sports seats and different steering wheel, and a wider, chromed exhaust tailpipe; 14-inch alloy wheels were an optional extra. The models fitted somewhere between the XR and XT variants in terms of standard equipment. The XSi 8v 2.0 Petrol had the addition of subtle side skirts. 15-inch five spoke alloy wheels were available as an option when the model was launched, and became standard shortly after. The S16 (for ‘soupape-16′, or ’16-valve’) was a 3-door Phase 1-only model, replaced with the more powerful GTI-6 in 1996. The engines in both cars were 16-valve XU-series units with Magnetti Marelli fuel injection and produced excellent power and torque outputs for the time. As well as gaining a close-ratio 6-speed gearbox over the S16’s 5-speed, the GTI-6 had more power courtesy of a reworked 167 bhp XU10J4RS engine replacing the S16’s 155 bhp XU10J4 ACAV, and some subtle chassis revisions. As well as being more powerful, the GTI-6 engine had more flexible power delivery with more mid-range torque than that in the S16, and the new gearbox made it easier to use the engine more effectively. The GTI-6 was introduced as a Phase 1 model and was to last until the end of 2000. It received Phase 2 and 3 cosmetic and electrical updates alongside the rest of the range, but the engine and mechanical specification remained largely unchanged.The 306 underwent the only major revamp of its life in May 1997, with the launch of the “Phase 2” version (N5 in Australia). The basic shape remained the same, but lights, grille and bumpers were redesigned in an effort to bring the styling into line with the new, more rounded, Peugeot family look established with the Peugeot 406. Indicator lamps were now incorporated into the headlamp unit and the new style “block filled” Peugeot lion logo was adopted. The Phase 2 also saw the addition of an estate version. A new-style typeface for the car’s model number was adopted on the tailgate, removing the black plastic backing. There were also some changes to the dashboard layout, including a digital odometer, and trim quality which freshened up the car in the face of increasingly stiff competition from other manufacturers. New engines were also offered, with both 1.8 and 2.0 petrol engines gaining 16-valve cylinder heads together with modest power increases. At this time, the previous trim designations were replaced by L, LX & GLX for the UK market. XS, XSi and GTI-6 models continued as before, but with the Phase 2 headlight, grille, bumper and other cosmetic updates alongside the rest of the range. Cars from 1998 onwards (1999 model year) received further enhancements, including an aluminium-effect centre console on certain versions and a chrome Peugeot logo on the steering wheel. Other updates included removal of the black strip on the bootlid, colour-coded bumpers on some models and new upholstery in the cabin. New models also appeared in Phase 2 trim. Models from mid-1999 saw further improvements and exterior modifications, including clear lenses on the headlamps, round and clear lensed foglamps, complete colour-coding of the exterior trim, removal of the black plastic strip on the lower edge of the tailgate, flush glass seal to rear windscreen, a redesigned tailgate rear badge, different rear wiper and new paint colours. Interior upgrades were more minor, with the gearknob becoming rounder and silver topped, while the instrument binnacle received a silver background and white instrument needles in place of the previous red versions. XSi, XT and D Turbo models all received the GTi-6’s bodykit and interior styling additions but not the cyclone alloy wheels. In the diesel variants, the ageing XUD engine was replaced by the newer, HDi engine, which featured common rail injection. Some base models made use of the DW8 normally aspirated diesel engine. Almost all models included ABS and multiple airbags as standard equipment. Rain sensitive automatic windscreen wipers were also standard on all but the base spec. The hatchback 306 was discontinued in 2001 to make way for its replacement, the Peugeot 307. The cabriolet and estate variants both remained on sale until 2002. The slow–selling saloon was axed from the United Kingdom market in 1999, but it was still available in the rest of Europe until 2002.

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A UK-only model was the 306 Rallye of 1999. Mechanically the car was identical to a GTI-6, but had a minimal specification that deleted many GTI-6 standard features including fog lights, air conditioning, sunroof, electric windows, temperature sensor. Only 500 were produced in three non-metallic colours including; 100 in black, 200 in Cherry Red and 200 in Bianca White. While some were fitted with Phase 3 tailgates and bonnets, the car was basically a Phase 2 in terms of the fuse box and electrical wiring loom, including the use of Phase 2 remote locking. Seat upholstery was cloth in a specific Rallye pattern. The more austere specification led to the car being lighter than a GTI-6.

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The Peugeot 406 is a large family car that was produced by French automaker Peugeot between 1995 and 2004. Available in saloon, estate and coupé bodystyles with a choice of petrol or turbodiesel engines, the 406 replaced the Peugeot 405 in Peugeot’s lineup, and was itself replaced by the Peugeot 407. It used the same platform as the Citroën Xantia, though without that car’s sophisticated hydropneumatic suspension system. The styling of the 406 is heavily influenced by its predecessor, the 405, which began to be phased out from the 406’s launch in September 1995, and eventually finished production in Europe in 1997, when the last estate models were discontinued. United Kingdom sales of the 406 began in February 1996. Initially, the car was available with 1.8 L and 2.0 L petrol and 1.9 L turbodiesel engines, followed by a turbocharged 2.0 petrol, 2.9 (2946 cc, badged as a 3.0) V6 petrol, and 110 bhp 2.1 L turbodiesel. The diesel versions were very popular, and the 406 became one of Europe’s best selling diesel powered cars. The two door coupé, launched at the 1996 Paris Motor Show, was both designed and manufactured by Italian design studio Pininfarina, with choices of a 2.0 L four cylinder engine or a 3.0 L V6, and from 2001, a 2.2 L HDi diesel engine. On later models, a 2.2 L petrol engine was available. A total of 107,633 coupés were made. The design was originally offered to Fiat by Pininfarina in about 1990, only for Fiat to reject the design and design its own coupe. For its final year on sale in the United Kingdom, the model was simply called the Peugeot Coupé, with the 406 branding dropped from the name. The 406 was notably successful in the United Kingdom, having broken into the country’s key fleet sales market, with a high percentage of units becoming company cars and taxis. In August 2002, a Peugeot 406 HDi set the world record for the longest distance driven on a single tank of fuel. The car travelled across Australia between Melbourne to Rockhampton, with a total distance of 2,348 km. Knock-down kit versions of the car were also built at the Yontrakit Industrial Factory in Lad Krabang, Bangkok, Thailand. The facelifted 406 saloon was introduced in February 1999 and safety, strength and speed enhancements resulted in improved Euro NCAP performance. Where the old 406 had one star and a struck off star, the post facelift models gained three stars. The changes included the new and improved EW/DW Engine Family HDI with greater power, torque and fuel efficiency along with increased refinement, making it comparatively quiet for a diesel. A downside was an increase in the car’s insurance group from 9 to 12. The exterior look was amended as the 406 featured more pronounced ribs, clear headlights, chrome trim and a new honeycomb grille. The rear lights were finished in red with a strip of the car’s paint colour across the centre. The interior was also redesigned to improve comfort and space. New equipment included automated digital climate control/air conditioning on most models except the most basic and a multi function display for warning messages, trip computer, radio and external temperature. There was a more extensive use of wooden trim, better quality plastics, including soft touch plastics, and in addition some models received electrically folding mirrors, with automatic headlights and wipers. The top of the range Executive model was specified a ten speaker JBL sound system, electrically adjusted and heated leather seats, a memory position for the seats and mirrors, headlight washer jets, a rear sun blind, thicker carpeting, lights in the sun visors, satellite navigation and ambient lighting. Production ceased in 2004 with the launch of the 407.

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The 207 was the successor to the 206. The 207 was based on a modified version of the platform used for the Citroën C3 and was built in Poissy (France), Madrid (Spain) and a new plant in Trnava, Slovakia. Peugeot decided not to manufacture the 207 in Ryton. The 207 was launched in France, Spain, and Italy during April 2006, and later on in other markets in European and Middle East. In January 2004, The launch for the United Kingdom was on 8 June 2006. Amicus and the TGWU, both unions representing workers at PSA’s manufacturing plant in Ryton, Coventry, chose the same day to launch a campaign calling for the boycott of PSA’s Peugeot and Citroën vehicles in the United Kingdom, to protest against the company’s plans to close the plant. Peugeot’s United Kingdom sales grew, despite the resulting boycott. Initially, three petrol engines were available: 1.4-litre 8v with 75 or 16v 90 bhp and 1.6 litre 16v with 110 bhp. From the end of 2006, the 1.4 and 1.6 16v models were replaced by the new 1.4 vti 95 bhp and 1.6 vti a 120 bhp Valvetronic engines. Two turbocharged and intercooled versions, one with 150 bhp, and the other with 175 bhp were also added to the range. The latter four engines result from the cooperation agreement between PSA and the BMW Group; and can also be found in the Mini Cooper S. The diesel powered engines available are a 1.4 litre 70 bhp or a 1.6 litre HDi with maximum output of 90 bhp or 110 bhp, the latter with the addition of an intercooler. The 207 was available as a three- or five-door hatchback, a 207 SW station wagon and the 207 coupé cabriolet (207 CC), which was launched in December 2006, as a replacement for the ageing 206 CC retractable hardtop, with engine choice limited to either the 1.6l HDi or 1.6l Vti. A panel van 207 Van model was presented at the Burmingham Commercial Vehicle Show and sold in the United Kingdom. The commercial 207 kept its side windows in most other markets, such as France, where it was marketed as 207 Affaire. A GTI (or RC in some markets) version was also available, with the THP175 175 hp turbocharged 1.6 litre engine. A GT (or Limitee) version is also available, but is only sold with the THP150 150 hp turbocharged 1.6 litre engine, and also features a glass roof. Both the GTI and GT versions are sold exclusively with manual gearboxes. The car was facelifted in July 2009, receiving a slightly smaller grille and revised front lighting, including new fog lamp housings, along with LED lights on the rear. Some engine management software changes were also made, boosting the power of the GTI from 175 bhp to 184 bhp.

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PORSCHE

During the 1990s, Porsche was facing financial troubles and rumours of a proposed takeover were being spread. The signature air-cooled flat-6 of the 911 was reaching the limits of its potential as made evident by the 993. Stricter emissions regulations world wide further forced Porsche to think of a replacement of the air-cooled unit. In order to improve manufacturing processes, Porsche took the aid of leading Japanese car manufacturer Toyota whose consultants would assist in the overhaul of the Zuffenhausen manufacturing facility introducing mass production techniques which would allow Porsche to carry out production processes more efficiently. Porsche had realised that in order to keep the 911 in production, it would need radical changes. This led to the development of the 996. The sharing of development between the new 911 and the entry level Boxster model allowed Porsche to save development costs. This move also resulted in interchangeable parts between the two models bringing down maintenance costs. The Porsche 996 was a new design developed by Pinky Lai under Porsche design chief Harm Lagaay from 1992 to 1994; it was the first 911 that was completely redesigned, and carried over little from its predecessor as Porsche wanted the design team to design a 911 for the next millennium. Featuring an all new body work, interior, and the first water-cooled engine, the 996 replaced the 993 from which only the front suspension, rear multi-link suspension, and a 6-speed manual transmission were retained in revised form. The 996 had a drag coefficient of Cd=0.30 resulting from hours spent in the wind tunnel. The 996 is 185 mm (7 in) longer and 40 mm (2 in) wider than its predecessor. It is also 45% stiffer courtesy of a chassis formed from high-strength steel. Additionally, it is 50 kg (110 lb) lighter despite having additional radiators and coolant. All of the M96 engines offered in the 996 (except for the variants fitted to the Turbo and GT2/GT3 models) are susceptible to the Porsche Intermediate Shaft Bearing issue which can potentially cause serious engine failure if not addressed via a retrofit. The 996 was initially available in a coupé or a cabriolet (Convertible) bodystyle with rear-wheel drive, and later with four-wheel drive, utilising a 3.4 litre flat-6 engine generating a maximum power output of 296 bhp. The 996 had the same front end as the entry-level Boxster. After requests from the Carrera owners about their premium cars looking like a “lower priced car that looked just like theirs did”, Porsche redesigned the headlamps of the Carrera in 2002 similar to the high performance Turbo’s headlamps. The design for the initial “fried egg” shaped headlamps could be traced back to the 1997 911 GT1 race car. In 2000, Porsche introduced the 996 Turbo, equipped with a four-wheel-drive system and a 3.6-litre, twin-turbocharged and intercooled flat-six engine generating a maximum power output of 420 bhp, making the car capable of accelerating from 0–60 mph in 4.2 seconds. An X50 option which included larger turbochargers and intercoolers along with revised engine control software became available from the factory in 2002, increasing power output to 451 bhp. In 2005, Porsche introduced the Turbo S, which had the X50 option included as standard equipment, with the formerly optional Carbon fibre-reinforced Silicon Carbide (C/SiC) composite ceramic brakes (PCCB) also included as standard. In 2000, power output on the base Carrera model was increased to 300 bhp. 2001 marked the final year of production for the base Carrera 4 Coupé in narrow body format. In 2002, the standard Carrera models underwent the above-mentioned facelift. In addition, engine capacity was also increased to 3.6-litres across the range, yielding gains of 15 bhp for the naturally aspirated models. 2002 also marked the start of the production of the 996 based Targa model, with a sliding glass “green house” roof system as introduced on its predecessor. It also features a rear glass hatch which gave the driver access to the storage compartment. Also in 2002, the Carrera 4S model was first introduced.

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The commercially very significant Boxster was also represented here. Grant Larson’s design, inspired by the 356 Cabriolet, Speedster, and 550 Spyder, stimulated a commercial turnaround for Porsche. Through consultation with Toyota. Porsche began widely sharing parts among models and slashed costs. By October 1991 following a visit to the Tokyo Motor Show, Porsche in dire straits, began to devise solutions to succeed the poor selling 928 and incoming 968 (a heavy update of the 944). In February 1992, Porsche began development of a successor to the 928 (mildly updated for 1992) and recently released 968. By June 1992, out of 4 proposals based on dual collaboration between the 986 and 996 (993 successor) design teams, a proposal by Grant Larson and Pinky Lai was chosen by Harm Lagaay. In August 1992, a decision was made to develop the concept into a show vehicle, in time for the 1993 North American International Auto Show. After garnering widespread acclaim from the press and public upon presentation of the Boxster Concept in January 1993, the final production 986 production exterior design by Larson was frozen in March 1993. However, by the second half of 1993, difficulties arose with fitment of some components, resulting in lengthening of the hood and requiring another design freeze by fourth quarter of that year. Prototypes in 968 bodies were built to test the mid-engine power train of the 986 by the end of 1993, with proper prototypes surfacing in 1994. Pilot production began in the second half of 1995, ahead of series production in mid-1996. The Boxster was released ahead of the 996. The 986 Boxster had the same bonnet, front wings, headlights, interior and engine architecture as the 996. All 986 and 987 Boxsters use the M96, a water-cooled, horizontally opposed (“flat”), six-cylinder engine. It was Porsche’s first water-cooled non-front engine. In the Boxster, it is placed in a mid-engine layout, while in the 911, the classic rear-engine layout was used. The mid-engine layout provides a low center of gravity, a near-perfect weight distribution, and neutral handling. The engines had a number of failures, resulting in cracked or slipped cylinder liners, which were resolved by a minor redesign and better control of the casting process in late 1999. A failure for these early engines was a spate of porous engine blocks, as the manufacturer had difficulty in the casting process. In addition to causing problems with coolant and oil systems mingling fluids, it also resulted in Porsche’s decision to repair faulty engines by boring out the cast sleeves on the cylinders where defects were noted in production and inserting new sleeves rather than scrapping the engine block. Normally, the cylinder walls are cast at the same time as the rest of the engine, this being the reason for adopting the casting technology. The model received a minor facelift in 2002. The plastic rear window was replaced by a smaller glass window. The interior received a glove compartment, new electro-mechanical hood and trunk release mechanism (with an electronic emergency release in the fuse box panel) and an updated steering wheel. Porsche installed a reworked exhaust pipe and air intake. In addition, the front headlight’s amber indicators were replaced with clear indicators. The rear light cluster was also changed with translucent grey turn signals replacing the amber ones. The side marker lights on the front wings were changed as well from amber to clear, except on American market cars where they remained amber. The bumpers were also changed slightly for a more defined, chiselled appearance, and new wheel designs were made available. The second generation of the Boxster debuted at the 2004 Paris Motor Show

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More recent models included a Cayman from the 987 generation and a Boxster from the follow-on 981 series.

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Much rumoured for some time, the Cayman GT4 was officially launched at the 2015 Geneva Show, positioned to sit between the Cayman GTS and the 911 GT3. By the time of the official unveiling, the car was supposedly sold out many times over, though more recently it has become apparent that at least some Porsche dealers have been holding onto cars claiming that the first purchaser changed their mind, and then offering them to those who did not get one of the allocation a year ago, at vastly inflated prices. If true, this is very sharp practice indeed, but seems to be the sort to tricks that are becoming increasingly common as enthusiasts are being fleeced in the name of extra profit. For a starting price of around £65,000 in the UK, the lucky customer would get a car which used used a stiffened and strengthened Cayman bodyshell as a starting point, but lowered by 30mm . Porsche say that in fitting as many GT parts as possible, they did not make it out of a Cayman GTS, but rather they produced an entry-level mid-engined GT3 car. That sounds like PR spin to me, as of course the car does use an awful lot of parts from the regular Cayman. However, plenty is changed, too. There is a reworked version of the Carrera S’s 3.8-litre flat six engine, producing 380bhp at 7400rpm and 310lb ft at 4750-6000rpm, hooked up to a modified version of the Cayman GTS’s six-speed manual gearbox. A PDK dual-clutch automatic was considered but rejected, meaning the Cayman GT4 is manual only. This is enough to mean that the 0-62mph sprint takes 4.4sec and the top speed is 183mph, with combined fuel economy of 27.4mpg and CO2 emissions rated at 238g/km. The front axle and suspension are borrowed from the 911 GT3 and the rear axle and forged aluminium double wishbone suspension are completely new. Dampers are taken from the 911 GT3. The electric steering system from the 911 GT3 does make it onto the Cayman GT4 but is given new software. Stopping power is provided by standard steel brakes, or optional carbon-ceramics from the 911 GT3. The forged 20in alloy wheels were new and are shod with Michelin Pilot Sport Cup 2 tyres. The rear 295/30 ZR20 tyres are bespoke, but the front 245/35 ZR20s were borrowed from the 911 GT3 as they were “a perfect match”. design-wise, the goal was to create a “zero lift car”, but thanks to the extensive aerodynamic and cooling package on the car – which includes a front splitter, a larger front grille and increased frontal air intakes, side air intakes, not one but two rear spoilers and a fully functional diffuser – the Cayman GT4 produces as much downforce at speed (100kg) as the 911 GT3. Every single part on the Cayman GT4 has a functional use. Other design features include “cool” black glass on the front and rear lights, blackened twin central exhausts and quality stitching on the twin lightweight bucket seats, taken from the 918 Spyder, as small details adding to that ‘want factor’.Despite all the extra equipment, the Cayman GT4 weighs no more than a Cayman GTS, tipping the scales at 1340kg dry. You could delete items such as the sat-nav and air-con to save weight, but few customers did, just as with the 911 GT3 RS were just 2% of buyers deleted the air-con. Inside, the steering wheel was new. The sports seats were trimmed in both leather and Alcantara. Standard equipment included bi-xenon headlights, a sports exhaust system, a Sport Chrono Package with dynamic engine mounts, the Porsche Torque Vectoring system, a mechanical limited-slip differential at the rear and the Porsche Stability Management system. On the options list were items such as carbonfibre-reinforced, plastic-backed seats for the two-seat interior. These weigh just 15kg each and were inspired by the 918 Spyder. A customised version of the Sport Chrono Package was offered, as is a Club Sport Package. Initially it was declared that production would be very limited, but Porsche soon relented and far more were built than had originally been declared.

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RENAULT

The Renault 4, also known as the 4L (pronounced “Quatrelle” in French), is a small economy car produced by the French automaker Renault between 1961 and 1994. It was the first front-wheel drive family car produced by Renault. The car was launched at a time when several decades of economic stagnation were giving way to growing prosperity and surging car ownership in France. The first million cars were produced by 1 February 1966, less than four and a half years after launch; eventually over eight million were built, making the Renault 4 a commercial success because of the timing of its introduction and the merits of its design. The Renault 4 was Renault’s response to the 1948 Citroën 2CV. Renault was able to review the advantages and disadvantages of the 2CV design. The Citroën had made motoring available to low-income people in France, and especially to farmers and other people in rural areas, for whom the car was as much a working tool as personal transport. The 2CV had been designed in the 1930s for use in the French countryside where the road network was poor – speed was not a requirement but a good ride, useful rough-terrain ability, a versatile body for load carrying, and economy and simplicity of operation were its key considerations. However, by the late 1950s, the 2CV was becoming outdated. Rural roads in France were improved and the national system of autoroutes was being developed. Agriculture was becoming more mechanized with fewer smallholdings and family farms for which the 2CV was designed. The Citroën had also proved popular with people living in towns and cities as affordable, economical transport but the 2CV’s rural design brief made it less than ideal as a city car and, despite improvements, the late-1950s 2CV had a top speed of just 70 km/h (43 mph). Its air-cooled two-cylinder engine was reliable and economical but noisy and offered poor performance. The 2CV’s suspension gave it an excellent ride and good grip and handling but was mechanically complex with many moving parts that required regular maintenance and lubrication at intervals as low as every 1000 miles (1600km). With its roots in the 1930s, the 2CV’s styling was also outdated and, with its separate wing/fenders, had a relatively narrow and cramped body for its overall footprint. While the Citroën had been designed during the Great Depression when money was tight and living standards were relatively low, by the 1960s the French economy was growing and people would be able to afford a more modern, refined, and less utilitarian small car. In early 1956, Renault Chairman Pierre Dreyfus launched this new project: designing a new model to replace the rear engined 4CV and compete against the Citroën 2CV that would become an everyman’s car, capable of satisfying the needs of most consumers. It would be a family car, a woman’s car, a farmer’s car, or a city car. The Renault 4 shared many design traits with the older Citroën 2CV to allow it to fulfill the same role as a versatile utility car, especially for people in rural France and other parts of the world with poor roads. It had a large structural platform with a separate body. It had front-wheel drive, long-travel fully independent suspension, and Rack and pinion steering. It had a simple body with minimal equipment, a large space for cargo or luggage, and ‘deckchair’ seats which could be easily removed. However, the Renault 4 updated this basic concept with a larger four-cylinder water-cooled engine with a sealed cooling system offering much better refinement and performance than the contemporary 2CV, with a top speed of over 104 km/h (65 mph). The suspension consisted of torsion bars which required no regular maintenance. The boxy full-width body offered more space for both passengers and luggage than the similar-sized 2CV and the car boasted an early hatchback body for greater practicality. Renault launched the Renault 3 and the Renault 4 simultaneously in July 1961. The cars shared the same body and most mechanical components, but the R3 was powered by a 603 cc version of the engine while the R4 featured a 747 cc engine. This placed the R3 in the 3CV taxation class while the R4 was in the 4CV class. Maximum power output was rated by Renault as 22.5 hp for the R3, and 26.5 or 32 hp for the R4, depending on price level and the type of carburettor fitted. Initially the base versions of the R3 and R4 came with a thick C-pillar behind each of the rear doors. Quarter glass was a 400 francs option for the basic R4. The extra visibility increased the weight of the vehicle, but these windows soon became standard for all R4s. The R3 and R4 were targeted at the Citroën 2CV that employed soft springs and long wheel travel to absorb bumps on rough roads. The Renault 3/4 applied the same approach and two models appeared at the Paris Motor Show in 1961 on a specialized demonstration display that incorporated an irregular rolling road. Visitors could sit inside a car, which remained undisturbed while the suspension absorbed the erratic bumps of the rolling road. In 1962 Renault employed the same display at the Turin Motor Show. The basic version of the R3 was priced 40 francs below the lowest-priced version of the Citroën 2CV in 1961 and featured painted bumpers and grill, a simplified instrument panel, a single sun visor, no windshield washer, and no interior door trim panels. This trim was also offered in the more powerful R4. The R4L with six side windows, chrome-colored bumper and grill, as well as a less spartan interior cost 400 francs (roughly 8%) more than the R4 with its four side windows. However, as with the Renault 4CV “Service” in 1953, customers shunned the basic model and in October 1962, the Renault R3 was discontinued, along with the most basic version of the Renault 4. A “super” version (branded “de luxe” in some export markets) with opening rear quarter-light windows and extra trim was also offered. The de luxe and super versions of the R4L received a version of the engine from the Renault Dauphine giving them an engine capacity of 845 cc. After the withdrawal of the 603 cc engined R3, the 747 cc R4 model continued to be listed with an entry-level recommended retail price, but the slightly larger-engined L versions were more popular. By 1965, Renault had removed the extra “R” from their model names: the Renault R4L had become the Renault 4L. Early versions of the Renault R4 used engines and transmissions from the Renault 4CV. The original design brief called for an engine size between 600 cc and 700 cc, but there was no consensus as to whether to use a four-cylinder unit or to follow Citroën with a two-cylinder unit. With Volkswagen rapidly growing market share across Europe and North America, Renault also gave serious consideration to an air-cooled boxer motor option for the forthcoming R3/R4. However, using the existing water-cooled unit from the 4CV was a solution, especially in view of the extended period of teething troubles encountered by the Renault Fregate, which was then Renault’s most recent attempt to develop an innovative powerplant. The existing engines were larger than that specified by management for the new 4CV, but the automaker addressed this by reducing the bore so that the overall capacity of the base engine for the new R3 worked out to be 603 cc, comfortably at the lower end of the required 600–700 cc range. However, since Renault already produced the 747 cc version of the engine that was well proven in the 4CV, it made sense to use this as well in what would in many respects be the older car’s successor. Therefore, in 1961, the R3 had a 49 mm bore and 80 mm stroke, while the R4 received the 54.5 mm × 80 mm existing engine. Moving the engine from the rear of the 4CV to the front of the new model involved significant planning: design changes to the unit were introduced as part of the process. The inlet manifold was now a steel casting whereas on the 4CV it had been constructed of a light-weight alloy: this was driven by cost considerations now that aluminum was not so inexpensive as it had been fifteen years earlier. Renault also took the opportunity to introduce a feature which subsequently became mainstream. Renault also designed a “sealed-for-life” cooling system, supported by a small expansion tank on the right side of the engine bay. The cooling system contained antifreeze intended to enable operation without topping up or other intervention throughout a car’s life provided ambient temperatures below -40 C were avoided. The engines were larger than the small 425 cc (later 602 cc and 29 hp), engines in the 2CV. The R4 always had a four-cylinder watercooled engine. The original Renault R4’s engine capacity of 747 cc served to differentiate the model from the more powerful Renault Dauphine, but the Dauphine’s 845 cc engine was used in the 4 itself from 1963 onwards: for most markets at this stage the Dauphine engine now came as standard in the top of the range Renault R4 Super, and was available in some other versions only as an optional extra. Given that Renault’s 603, 747, and 845 cc engines all shared the same cylinder stroke and were all of the same basic design, it is likely that there was very little difference between the manufacturing costs of the basic engine block between the three. From the perspective of the sales and marketing department, they did fall within different taxation classes (respectively 3CV, 4CV, and 5CV) but at this end of the market tax level differences were by now less of an issue even in those European countries that still taxed cars according to engine size. With time, the increasing trend to the production of Renault 4s in a wide range of countries reduces the validity of generalized statements as to which engines were fitted when: in French-built cars the old 845 cc engine continued in the low versions until the mid-1980s, but in 1978 the top-end Renault 4 GTLs received the new 1108 cc engine: this engine was not new to Renault, however, being the five-bearing “Sierra” engine, first installed in the Estafette van and R8 in the summer of 1962. A smaller version (956 cc) of this new engine finally replaced the by now venerable 845 cc engine in the 4 in 1986. Unlike the original “Billancourt” engine from the 4CV, Renault’s “Sierra” engine rotated in a clockwise direction, so fitting it required reversing the direction of the differential in the gear box in order to avoid producing a car with one forward speed and four reverse speeds. The initial transmission was a three-speed manual, described by one critic as an obsolete feature when compared to the four-speed manual of the then thirteen-year-old Citroën 2CV. Ironically the new Renault 4 did not inherit its transmission from the Renault 4CV nor from anyone else: the transmission was newly developed for the car. The dash-mounted gear lever was linked via a straight horizontal rod that passed over the longitudinally mounted engine and clutch directly to the gearbox right at the front. The resulting absence of any linkage at floor level permitted a flat floor across the full width of the car’s cabin. Synchromesh featured only on the top two ratios, even though the low power of the engine required frequent gear changes by drivers using normal roads and wishing to make reasonable progress. On this point Renault quickly acknowledged their error and cars produced from 1962 featured synchromesh on all three ratios. In 1968 the Renault 4 finally received a four-speed transmission. The three principal new models introduced by Renault since the war featured monocoque “chassisless” construction that was less expensive to manufacture process and reduced operating costs because of lower vehicle weight. The Renault R3/R4 design defied this by now widely accepted mantra, employing a separate platform to which the body shell was then attached. The body’s structural role in maintaining the overall rigidity of the car body was thereby reduced, placing less stress on the roof and allowing for thinner window pillars. Although the use made of a separate platform resembled, in some respects, the use that pre-war designs would have made of a chassis, the outcome was a structure described as semi-monocoque, and it would later allow Renault to use the R4 platform, with very little modification, to build new models such as the Renault 6 and Rodeo. (Later, the successful Renault 5 used the R4 running gear, but in a monocoque shell). Because the rear torsion bars are located one behind the other, the wheelbase is longer on the right side than on the left. The R3 and R4 had four-wheel torsion-bar independent suspension. This was an innovation that would be copied on a succession of subsequent front-engined Renaults introduced during the 1960s and 70s. The car features a shorter wheelbase on the left than on the right because the rear wheels are not mounted directly opposite one another. This concept allowed a very simple design of the rear suspension using transverse torsion bars located one behind the other without affecting handling. The front torsion bars were longitudinal. The fixed end of the torsion bars is mounted on quadrants that can be adjusted via a holes/fixing bolt arrangement. This enables the suspension to be “beefed up” and the ground clearance increased. With specialist tools provided by Renault, adjustments can be made to provide the light 4L some off-road capabilities. This feature, along with the installation of a thick protecting aluminum plate under the engine, has been used by and off-road drivers and student 4L Trophy entrants. Damping was provided by hydraulic telescopic shock absorbers on all four wheels. Those at the rear were mounted virtually horizontally which avoided the intrusion of rear suspension componentry into the flat-floored passenger cabin. The longitudinal layout of the front-wheel drive engine and transmission with the engine behind the front axle and gearbox/differential in front is identical to the Citroën Traction Avant. The suspension is similar with the difference being the deletion of the Citroën’s flexible beam between the rear wheels to give the Renault 4 fully independent rear suspension. The Renault 4 was not significantly changed during its production. Exterior chrome trim was eventually phased out on all models, and aluminium grilles were replaced with plastic. There were three different dashboard designs. On the right side of the car at the back the position of the fuel filler was raised by approximately 15 cm (6 inches) less than a year after the car’s launch, but changes to the body panels were limited to a slightly altered hood and hinges. There were many different ‘special edition’ Renault 4s. Some (including the Safari, Sixties, and Jogging) were sold in special colour schemes, upholstery and other details, while others (Clan, Savane) were standard models with special decals. There were also special models that were not solely a marketing exercise, such as the Renault 4 Sinpar 4×4, the Plein Air, a pickup truck, LPG versions, and electric versions. The Plein Air was a doorless and roofless version originally developed to meet a 1964 request by the French Army. Sinpar’s version, called the Sinpar 4×4 Torpedo, was first shown as a prototype at the 1968 Geneva Salon, equipped with Sinpar’s four-wheel-drive system. Sinpar was quickly given a contract to build a front-wheel-drive version at their works in Colombes near Paris; it appeared in May 1968. Called the Plein Air (meaning “Open Air”), it had no doors, with only a chain protecting the passengers. A military contract did not materialize but Renault and Sinpar attempted to ride the late sixties/early seventies buggy wave in marketing it as a fun beach car. Being more expensive and less capable than the Citroën Méhari it did not catch on and was discontinued in March 1970, after only 563 had been built. In 1989, Colombian SOFASA produced the variants Brisa (Breeze) which was based on the French Plein Air and Jogging, which was marketed as a sportier version of the car and featured red accessories. In 1978, the R4 GTL arrived. It had the 1108 cc engine from the Renault 6 TL, albeit with the performance reduced for better economy, and bigger drum brakes. The GTL was identifiable by its grey front grille, grey bumpers, and grey plastic strips along the bottoms of the doors. It also had an extra air intake below the front grille (as a result, the registration plate was moved down to the bumper), and 12 inch (304.8 mm) wiper blades instead of the original 10 inch (254 mm) ones. For the 1983 model year, the GTL got front disc brakes, the handbrake now working on the rear wheels, and there were a modified dashboard and cloth seats. The Renault 4 was the last French automobile to be sold with drum brakes on all four wheels, after the Citroën 2CV received disc brakes in 1981. The very first 1983 models had the handbrake lever moved from left to right under the steering wheel before it was moved to the floor like in almost any other car by then. There was also a panel van (Fourgonette) version of the R4, which with its “high cube” bodyshell and the unique ‘giraffon’ (giraffe hatch) at the rear became the idiosyncratic French “Boulangerie” van. For many years, this was a successful vehicle of its type and for many customers, as it represents their idea of a Renault 4 more than a passenger version. It remained on sale in Europe until 1993 and was replaced by the Renault Express (called Extra in UK and Ireland, Rapid in Germany), which was based on the second generation Renault 5 ‘Supercinq’. Though reasons such as emissions and safety legislation are often given for the Renault 4’s demise in Europe during the 1980s, it would appear that its popularity would not have lasted. Outmoded production methods, more advanced competition and the reasons outlined above meant that the Renault 4’s days were numbered, at least as a mainstream product. And Renault was already enjoying huge sales success with the far more modern R5, which was only slightly more expensive. Comparable products had already been discontinued in Europe or had their production scaled back, as more modern designs enjoyed the strongest sales. British Leyland’s Mini had been produced in smaller figures since the launch of the Austin Metro in 1980 with production continuing until 2000. Volkswagen had switched Beetle production from West Germany to Mexico in 1978 (where it was made until 2003), with the new Polo and Golf proving hugely popular in Europe. Citroën kept its 2CV in production until 1990, but did not directly replace it, with the AX (launched in 1986) taking its place as the entry-level model in the Citroën range. It had also produced the earlier Dyane and Visa as more modern and only marginally more expensive alternatives to 2CV. There were several projects to replace the Renault 4, starting from the early 1970s. However, the continuing success of the Renault 4, the need to replace the more popular Renault 5 during the early 1980s, the difficulties coming up with a suitable replacement (and the idea that the Renault 4’s market would die with it) all meant that a new entry-level Renault (the Twingo) did not appear until 1992.

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Really rare these days is the R21, seen here in 7 seater Savanna (Estate) guise. The Renault 21 is a large family car produced by French automaker Renault between 1986 and 1994. It was also sold in North America initially through American Motors dealers as the Renault Medallion and later through Jeep-Eagle dealers as the Eagle Medallion. The Renault 21 sedan was launched in the beginning of 1986, as the successor to the successful Renault 18, and this was followed a few months later by the seven seater station wagon, the R21 Nevada, marketed as the Savanna in the United Kingdom. In 1987, What Car? awarded the Renault 21 GTS Best Family Saloon. The Renault 21 Savanna was awarded Car of the Year, as well as Best Family Estate. Unusually, the Renault 21 was offered with disparate engine configurations. The 1.7 litre version featured a transverse engine and transmission, but Renault had no gearbox suitable for a more powerful transverse engine: accordingly, faster versions featured longitudinally mounted engines. The two versions featured (barely perceptibly) different wheel bases: the engines were all relatively compact four-cylinder units and the engine bay was large enough to accept either configuration without reducing passenger space. However, at a time when production technologies were relatively inflexible, the need to assemble differently configured engine bays on a single production line, along with the supplementary inventory requirements imposed both on Renault and on the dealership network, did compromise the Renault 21’s profitability. The Nevada/Savanna station wagon/estate version was slightly longer than the sedan, and configured with seven seats, two of those a forward-facing foldable bench seat for children (up to about age 10) that used up much of the luggage space. It had roof rack side rails as standard. First unveiled on 20 November 1985 and officially launched in February 1986, the R21 gave Renault a new competitor in this sector after eight years of the R18, which was declining in popularity after a very strong start to its commercial life. It had a razor like design, which was different from contemporary cars of the era, e.g. the Ford Sierra (with its “jelly mould” design) and the Opel Ascona (with its “J–Car” design). It was sold in right hand drive for the United Kingdom from June 1986. The car was revamped considerably in May 1989, both technically and aesthetically – the new sleeker outward appearance was similar to the also recently revamped Renault 25, and a liftback body style was also added to the range (which soon became more popular than the sedan in France) along with a sporty 2.0 L Turbo version. Of the sedans, the TXi 2.0 12v and 2.0 turbo was also available with the four-wheel-drive Quadra transmission. The Nevada wagons received four-wheel-drive in the eight-valve 2.0 and in the naturally aspirated 2.1 Diesel, as the 12-valve and the turbo were not available with this bodywork. The front-wheel-drive 21 Turbo was capable of 227 km/h (141 mph). At the 1989 Frankfurt Motor Show the fuel injected 2.2i model was introduced, originally reserved for the German market (being a different model than the earlier 2.2s built for the US) where insurance and tax regulations suited larger engines with less peak power. Injected engines were equipped by Renix engine control unit, developed by a joint venture by Renault and Bendix. This car was also available with four-wheel-drive, exclusively as a Nevada. The Renault 21 liftback and sedan petrol fueled models ceased production in the beginning of 1994, following the launch of the all new Laguna liftback, but the diesels and the Nevada/Savanna remained on the market, until their replacement Laguna variants were launched (end of 1994 for the diesels, and end of 1995 for the Nevada/Savanna). A total of 2,096,000 units were produced.

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The Renault Mégane (French pronunciation: ​[meɡan]) is a small family car produced by the French car manufacturer Renault for model year 1996, and was the successor to the Renault 19. The Mégane has been offered in three and five door hatchback, saloon, coupé, convertible and estate bodystyles at various points in its lifetime, and having been through four generations is now in its fifth incarnation. The first generation was largely based on its predecessor, the 19, and utilized modified versions of that car’s drivetrain and chassis. The second and third generations were based on the Renault–Nissan C platform. The fourth generation is based on the CMF-CD platform, as used by the Renault Talisman and Renault Scénic. Development of the X64 began at the beginning of 1990, with the first sketches of X64 programme being drawn during the first six months of 1990. Very quickly, several themes were outlined and developed into four small scale (1/5) models by September 1990. The designs retained were developed around four themes. Theme A: a six light version, evoking the Laguna; Theme B: a model with a markedly cuneiform line; Theme C: another design with ellipse shaped glasswork and rear notch; Theme D: a model with the same elliptical glazing and rounded rear. In March 1991, all four styling proposals were developed into full scale (1:1). Theme C by Michel Jardin was chosen by Le Quement and frozen for production in April 1992. The first prototypes were built and presented to management in December 1992. Approximately 432 prototypes were built (at Rueil assembly) and destroyed during development. In June 1993, Renault purchased production tooling for the X64, with the first test unit being assembled at the Douai plant in October 1994, and pre production units being constructed from December 1994 to the middle of 1995. The Mégane I was unveiled in September 1995, at the Frankfurt Motor Show, as a replacement for the Renault 19. The car was essentially a reskin of its predecessor, and carried over the 19’s floorpan, engines, transmissions and chassis design, albeit with much modification. Taking its name from a Renault concept car shown in 1988, the Mégane further developed the new corporate styling theme introduced by Patrick Le Quément on the Laguna, most notably the “bird beak” front grille – a styling cue borrowed from the Renault 16 of the 1960s. As with the 19 and the 11 before it, the Mégane was produced at Renault’s Douai plant in northern France starting in July 1995, and at the Spanish plant of Palencia. Market launch began on 15 November 1995 in France, and 15 December 1995 for the coupé. Sales in the United Kingdom commenced in April 1996. Safety was a key focus of the Mégane I, Renault’s first car reflecting their new focus of selling on safety. It featured a pillar mounted three-point seatbelt for the middle rear occupant (replacing the common ‘lap strap’), standard front belt pre tensioners and load limiters, driver’s airbag (passenger airbag from 1996) and an impressive safety structure – a specification ahead of all rivals in 1995, e.g. VW Golf Mk 3, Opel Astra F, Ford Escort etc. Some features, such as the three-point middle belt, had debuted on the Renault 19 safety concept vehicle (and this feature entered production on the Renault Laguna before the Mégane). The car also benefited from Renault’s first “System for Restraint and Protection” (SRP), essentially a system of careful optimisation of occupant restraint by interaction of the seat, seatbelt, pretensioner, load limiter and airbag. The Mégane I achieved a best in class four star crash test rating in the 1998 round of testing by Euro NCAP. November 1996 saw the introduction of the Mégane Scénic compact MPV. Power came from the Renault E type (“Energy”) engine in 1.4 L and 1.6 L, and the F-type unit in both 1.9 L diesel and 2.0 L petrol forms, although this time around there was a wider variety of 16 valve derivatives. A 1.9 L diesel engine in both normally aspirated and turbocharged forms was also available. Renault also produced a limited number of Renaultsport edition Phase 1’s with the Renaultsport bodywork; however, these were very rare. The Renaultsport kit was available to purchase for a short time direct from Renault France, but has now been discontinued, thus their value has increased. The estate version of the original Mégane was only available in LHD form, with no RHD variants being built, this could be due to the greater popularity of the Scenic in those markets. The estate was added with the facelift of 1999, although pre-facelifted Mégane estates were sold from 1998 in Turkey, where it was manufactured. In Japan, Renault was formerly licensed by Yanase Co., Ltd., but in 1999 Renault acquired a stake in Japanese automaker Nissan. As a result of Renault’s purchase, Yanase canceled its licensing contract for all Renault models sold in Japan, including, but not limited to, the Mégane I, in 2000, and Nissan took over as the sole licensee for Renault cars. A mild facelift in spring 1999 gave the Mégane I a modified grille, more advanced safety features and upgraded equipment, and 16 valve engines were used across the range. An Estate body style was also launched in mainland Europe with the facelift. The production continued for the Latin America Market, where it was sold alongside the Mégane II line at a considerably lower price until 2011.

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Renault had replaced its R5 supermini with a completely redesigned model (which had similar styling to the 1972 original) in 1984, but soon afterwards began working on an all-new supermini to take the company into the 1990s. It was eventually decided that the new car would feature a name designation, rather than the numeric model designations which Renault had traditionally used – this would be adopted across the entire Renault range by 1995. Cars like the Fuego coupe (launched in 1980) had been an exception to this rule, and the last “numeric” Renault was the 19, launched in 1988, and by the end of 1996 the numeric model designations had completely disappeared from the Renault range in Western Europe.The Clio was introduced at the Paris Motor Show in June 1990 and sales in France and the rest of the continent began then, although sales in right-hand drive Britain did not begin until March 1991. The Clio was the replacement to the hugely successful Renault 5, although this car remained in production until 1996 at a factory in Slovenia, where some versions of the Clio were later built. The Clio’s suspension and floorpan were largely the same as the R5, which was derived from the R9 saloon of 1981 and R11 hatchback of 1983 – not that of the original 1972 Renault 5, despite the later R5 visually resembling the original model. The suspension uses half-width torsion bars (full-width on higher spec models) with trailing arms at the rear, and coil sprung MacPherson struts, attached to a thick pressed steel subframe at the front. The engine range available at launch included 1.2 L and 1.4 L E-type “Energy” petrol inline-four engines (first seen in the Renault 19) and 1.7 L and 1.9 L diesel engines, both based on the F-type unit. The petrol engines gradually had their carburettors replaced with electronic fuel injection systems by the end of 1992, in order to conform to ever stricter pollutant emission regulations brought in by the EEC. A minor trim facelift occurred after only a year of being on sale. A new “smooth” version of the Renault diamond badge (the previous “ribbed” badge was being phased out at the time) and a new front seat design were the only changes. The altered design did not constitute a new “phase”. In March 1994 (at the Geneva Motor Show), the phase two model was launched, with small updates to the exterior and interior of the Clio. Most noticeable was the change in the front grille from two metal ribs to a single colour-coded slat. The bump strips were made slightly larger and rounder and had the car’s trim level badge incorporated into them. The badges on the tailgate strip were moved up onto the tailgate itself and the tailgate strip was given a carbon fibre look. The rear light clusters were given a slightly more rounded bubble shape, giving the Clio a more modern look. The clusters, however, are physically interchangeable with phase ones’. In May 1996, with the arrival of the phase three facelifted Clio, the 1.2 L Energy engine was replaced by the 1,149 cc D7F MPi (multi point injection) DiET engine, first used in the Renault Twingo; for some time also, versions were available with the older 1239 cc “Cléon” unit from the original Twingo. The cylinder head design on the 1.4 L E-type was also slightly altered for the phase three models in a bid for better fuel economy. This resulted in the engines producing slightly less power than their earlier versions. The phase three Clios have a slightly more noticeable update than the phase twos. The phase three has different, more rounded headlights, incorporating the turn signal in the unit with the headlight, and the bonnet curves more around the edges of the lights. The tailgate incorporates a third brake light and a new script “Clio” name badge, following the same typeface as contemporary Renaults. Some mechanical improvements were also made, as well as the introduction of side impact bars and airbags, which were now common features on mainstream cars across Europe. Renault also released a hot hatch version of the Clio in 1991. It was aesthetically very similar, but with the addition of a 110 PS 1.8 L eight-valve engine, side skirts and disc brakes on all wheels. This, with multi-point fuel injection, was badged as the RSi. From 1991 a lighter tuned version of this 1.8 litre engine (with single-point injection) joined the earlier 1.7 used in the very luxurious Baccara version which was sold in some continental European markets. In addition to this reasonably powerful engine, the Baccara has a luxurious interior with much leather and wood, as well as power windows, locks, etc. The Baccara was renamed “Initiale” in 1997, in line with other Renaults, differing from the Baccara mainly in the wheel design. During 1991, a fuel injected 1.8 L 16-valve engine producing 137 PS (which had debuted on the Renault 19) capable of propelling the car to 209 km/h (130 mph) was introduced to the Clio engine range, known simply as the Clio 16S in France (S for “soupapes”, the French word for valves), and Clio 16V in export markets. It was the successor to the Renault 5 GT Turbo, which was discontinued that year as the R5 range was pruned back. As well as having a higher top speed than a regular Clio, the 16S sports wider plastic front wings, an offset bonnet vent, wider rear arches and uprated suspension and brakes, and colour-coded front mirrors and bumpers. The RSi side skirts were omitted, however. Inside, the 16V model has an extended instrument panel that houses dials for engine oil pressure, oil temperature, and oil level (which only indicates on engine start). The seats are also more supportive to match the sporting nature of the model. The non-catalyzed versions, still available in some markets, offer 140 PS and marginally higher performance with top speeds up to 212 km/h (132 mph) and the 0–100 km/h (62 mph) time dropping from 8 to 7.8 seconds. In December 1990, the Clio was voted European Car of the Year for 1991, and soon became one of Europe’s best-selling cars, as well as the first Renault to be consistently among the top-10 best sellers in the United Kingdom, where it was selling in excess of 50,000 units a year by 1995. UK sales were helped by a famous television advertising campaign by Publicis shot in France, featuring the two main characters of Nicole (played by Estelle Skornik) and Papa. From 1991 to 1993, trim levels were identical in every European country. Starting in 1993, trim levels designations became more varied across the various markets.[citation needed] The car was sold as the Renault Lutecia (from Lutetia, the Latin name for Paris) in Japan, as “Clio” was used there by Honda for one of their domestic marketing networks.

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In 1999 Renault presented the first officially branded RenaultSport Clio, this was the third Clio produced by the RenaultSport division succeeding the Clio 16V and Clio Williams. This new Clio, the 172 was based on the 3 door Clio II shell however had numerous features over the standard car including wider arches, restyled bumpers, side skirts and 15-inch OZ F1 alloy wheels. Power was delivered by the F4R730 engine, a 2.0-litre 16-valve Inline 4 engine with a Variable valve timing (VVT) system via a dephaser on the intake camshaft pulley. The engine was a modified version of the F4R used in models such as the Laguna and Espace and was modified by Mecachrome to deliver a power output of 172 PS. Power was delivered to the wheels via a JC5-089 five-speed manual gearbox. The 172 also featured interior changes over the standard car including Half Leather, Half Alcantara seats embossed with the RenaultSport logo and the car also came standard with manually controlled Air Conditioning. A limited edition of the Phase 1 172 was produced and known as the Clio 172 Exclusive. This was limited to 172 units, all 172 of this “Exclusive” edition were 296 Scarab Green, featured BBS alloy wheels and a full leather interior as opposed to the half-leather half Alcantara seats featured in the standard car. In 2001 the interior and exterior of the Clio II were face-lifted, the Clio RS followed suit shortly after. This facelift of the Clio 172 included redesigned front and rear bumpers, the front bumper falling in line with the style of the face-lifted Clio II. The rear bumper was now less rounded and featured a strip of ABS plastic effectively splitting the bumper into two. The lights, bonnet and boot lid were also matched to the face-lifted Clio II. The interior was also changed to closer match that of the face-lifted Clio II, the seats were slightly revised however still featured the same Half Leather, Half Alcantara fabrics and the embossed RenaultSport logo. One new feature that the Phase 2 172 featured was automatic climate control as opposed to the manual air-conditioning featured in the Phase 1. The dashboard featured Silver interior trims and the steering wheel included a plastic insert featuring the RenaultSport logo. The gear shifter was changed from the metal ball featured on the Phase 1 to a Leather wrapped shifter with a silver coloured insert on the top. The Phase 2 172 also featured increased equipment including automatic Xenon headlights and headlight washers, Rain Sensing wipers a six-disc CD changer, and it also included side-impact airbags integrated into the seats. The 15-inch OZ F1 alloy wheels were also replaced with a 16-inch Alloy Wheel of Renault’s own design. The facelift of the 172 also brought about a number of changes to the engine of the car. A revised version of the F4R used, the F4R 736, this featured a revised cylinder head with the exhaust ports being approximately 30% smaller than those featured on the Phase 1 172. The airbox was also redesigned to be much more square than the original airbox. A revised version of the JC5 gearbox, the JC5-129 was introduced in this version of the Clio 172, which revised JC5 featured a shorter final drive to counter the increased weight of the face-lifted 172. The catalytic converter, which on the PH1 172 had been dual barrel was reduced to a single barrel and featured 2 lambda sensors, one before and one after the catalytic converter. The biggest change to the PH2 172 over the PH1 was the introduction of an electric throttle. This meant the Idle Control Valve of the PH1 was no longer required leading to a minor redesign of the intake manifold. In 2002 Renault released the 172 Cup, which bore the chassis code CB1N and was known by Renault as the “sport lightweight version”. The vast majority of cars were produced in D43 Mondial Blue (metallic) with a limited run of around 90 cars being produced in 640 Iceberg Silver (metallic). The Cup, originally built for Gr.N homologation of the Clio 172 was differentiated from the “non cup” 172 by its lack of many of the luxuries included in the regular car. Instead of the leather / Alcantara seats instead the same style seat was upholstered in a durable but low-cost fabric, the automatic Xenon headlights were replaced by manually controlled halogen units and the washer jets replaced with blanks. The rain sensing wipers and solar reflective coated windscreen were also omitted from the 172 Cup. However the car had features not before seen on a production version of the 172, which included lightweight 16-inch Speedline Turini alloy wheels, matte blue door strips, ABS plastic “Cup” front splitter and a restyled “Cup” rear spoiler. The dash strips which were silver on the regular car were painted to match the outside of the car. One of the main features of the 172 Cup was its significant weight saving, having a kerb weight of 1021 kg, making it the lightest of 172 versions produced. This was achieved by the removal of a majority of sound deadening from the car alongside thinner glass to reduce weight even further. One large difference was also the lack of air conditioning which was a standard fit component on the regular 172, which typically led to the cup producing more power due to the engine having less ancillaries to drive. This however was reintroduced as an optional extra later in the production run of the Cup. The 0–60 time of the 172 Cup was officially marketed by Renault as being 6.5 seconds; however AutoCar Magazine reportedly timed the 0–60 at 6.2 seconds which if this were the case would make the 172 Cup the second fastest road going Clio produced at the time of this article, second to only the V6. Many enthusiasts regard the 172 Cup as the last “hardcore” hot hatch due to its lack of anti-lock brakes; the car also featured modified suspension which gave it a wider track thanks to modified wishbones, the car also sat lower than standard and featured stiffer shocks and springs, the suspension geometry was revised to suit these components and to mean that the steering response was increased, this also lead to an increase in oversteer thanks to the lack of weight and revised geometry. Due to the lack of ABS the brake bias of the car was fixed by way of disconnecting the rear axle compensator, within the UK this often lead to the cars failing the MOT test, VOSA eventually issued an advisory to prevent this from happening. 2004 marked yet another refresh of the Clio II. The inserts of the headlights were changed from Black to Grey, new wheels styles were introduced and new colour options were added with others being dropped. The basic design of the car stayed the same with only minor changes. The Six-Disc CD changer was dropped as standard equipment however was still available as a cost option. This refresh marked the introduction of cruise control and Electronic Stability Program (ESP) as standard equipment. The Clio RS featured a lot more changes than the regular Clio. The engine was again revised and became the F4R 738. The difference between the F4R 738 and F4R 736 was a revised oil breather setup meaning the intake manifold found on a 172 would not fit a 182. Thanks to a number of other changes this engine produced 182 PS . This increase in power was thanks to the addition of a 4-2-1 Manifold and high flow 200 cell sports catalytic converter. The spare wheel well was removed and replaced with a flat floor to make way for the new dual exit exhaust featured on the 182. Minor revisions were made to the interior, the perforated texture of the Alcantara on the seats now featured white dots. The car also featured a new 8 spoke wheel design which came in Silver on a regular car and Anthracite on a “Cup Packed” car. The rarest optional extra available was the Carminat Sat-Nav which was fitted to very few cars. However, the unit wasn’t a popular option due to its high cost and rumoured poor performance compared to aftermarket options. The “Cup” Front Splitter and “Cup” Spoiler originally fitted to the 172 Cup made a reappearance as a cost option known as the Cup Style Pack. This was one of two cup packs available, the other being the Cup Chassis. This Cup Chassis pack included a strengthened hub with 60mm spacing on the strut bolt holes as opposed 54mm on non cup packed cars. The Cup Chassis also featured lowered suspension with stiffer shocks and springs and an anthracite version of the standard alloy wheels. The Clio 182 could also be ordered in a more race focused than ‘base’ RS model called “Cup Specification”, this was available in just two colours, J45 Racing Blue and D38 Inferno Orange, however came as Standard with the Cup Chassis and Cup Style Pack. The 182 Cup lacked the automatic Xenon headlights and headlight washer jets, climate control (rear footwell heater vents were also removed), illuminated sun visors, Solar Reflective Windscreen and Automatic Wipers. The leather / Alcantara seats were replaced with cloth items and the rear bench was downgraded to match. The engine cover and sill plates were removed and the steering wheel was downgraded to no longer include the RenaultSport Logo or rubber thumb grips. Carpet and headlining were downgraded to basic specification and even the documentation wallet was changed from faux leather to cloth. Sound deadening was removed from the 182 Cup, the horn was downgraded from a twin to single unit and the interior light no longer included a map reading function. Despite all of these reductions in specification the 182 Cup was still considerably heavier than the previous 172 Cup, meaning this version of the Clio II RS was considered one of the least desirable versions. The final version of the Clio 182 was known as the 182 Trophy. This version was based on the 182 Cup and featured the same strengthened hubs with 60 mm bolt spacing. Originally only 500 cars were to be produced for the UK market however an additional 50 were produced to be sold in Switzerland. At the time, believing there was no market for this version of the Clio, the Marketing Department of Renault France failed to order a 182 Trophy. The 182 Trophy included 16 Inch Speedline Turini Alloy wheels as seen on the 172 Cup, the Spoiler from the Clio 255 V6, Recaro Trendline seats and exclusive 727 Capsicum Red Paint with Trophy Decals lacquered onto the Side skirts. Each car had an individually numbered plaque on the base of the driver’s seat. The biggest difference however between the 182 Cup and 182 Trophy was the inclusion of Sachs Remote-Reservoir dampers. The basic principle of a Remote-Reservoir damper is that because there is a separate reservoir for the gas or oil which fills the shock they can either be of a reduced length or can house a longer rod, this means that the sizing of the shock can be optimised for the application in which it is being used. These changes definitely made a big difference to the 182 Trophy and have led to its being heralded as one of the best hot hatches of all time and it won Evo Magazine’s “People’s Performance Car of The Year” 2005, whilst also beating off rivals such as the Lamborghini Gallardo and other exotica in an Evo Magazine Group Test. AutoCar Magazine’s front cover from 5 July 2005 simply stated “World’s Greatest Hot Hatch”.

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Expectations were high for another class-leading sporty Clio when Renault debuted the third generation model in 2005, and enthusiasts were not disappointed when Renault premiered the car, which was called the Clio RS 197. The new Clio III drew technology from Formula One, including a rear diffuser and brake cooling side vents, they upgraded the engine, now to 194 bhp (197 PS). The car is heavier than its predecessor, but the acceleration figures are slightly improved due to a combination of more power, torque and the new six-speed gearbox with shorter gearing according to the official figures published on the Renaultsport website. The facelifted Clio III was further enhanced with the inclusion of a front splitter and the engine now produced 197 bhp (200 PS). This has been made possible by tweaks to the exhaust system, valve timing and ECU also stated to give a slight increase in fuel economy. Acceleration figures were slightly improved due to shorter gearing in 1, 2 and 3 and enhancements have been made to the cup chassis including making the steering rack more responsive. Cosmetic enhancements include the addition of larger tailpipes protruding slightly from the rear diffuser, i.d. coloured front bumper insert, wing mirror covers and rear diffuser and i.d. interior trim. Renault also introduced a new i.d. paint option of Alien Green. The 200 is highly regarded by EVO magazine, remaining their hot hatch of choice since 2009. “After the mild disappointment of the Clio 197, Renaultsport has got the Clio back to its very best, producing a cracking small hot hatch more than capable of chasing down supercars on eCOTY 2009 for a top five finish”. It was hailed by CAR Magazine as “the 911 GT3 of hot hatches” and remained CAR Magazine’s “Best in Class” since its release in 2009. Renault produced a significant number of limited edition variants during the model’s life cycle. Production ceased in 2012 when the fourth generation was launched.

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It did not take Renault long to add an RS version to their 3rd generation Megane range. debuting the car at the 2009 Geneva Show. This new Megane Renault Sport 250 included a 2.0litre twin-scroll turbo 4-cylinder F4Rt engine rated at 250 PS (247 bhp) at 5500 rpm and 340 Nm (251 lb/ft) at 3000 rpm with a 6-speed manual gearbox, Brembo front brakes, front splitter, extended sills and wheel arches, rear diffuser with central exhaust pipe, and 18-inch alloy wheels wearing 225/40R18 tyres. Aluminum pedals, a Renault Sport steering wheel with thumb grips, analog rev counter and sport seats with extra lateral support dress up the cabin. Other features include front LED daytime running lights and bi-xenon headlights. The 250 Cup variant contains a number of sharpened performance features including a stiffer chassis, track focused suspension, a limited slip differential and a slightly lighter gross weight. The Cup is differentiated visually with painted red brake calipers, instead of the silver calipers for the normal Sport. 18×8.25″ “Ax-l” alloy wheels are fitted with wider 235/40R18 tyres, while 19×8.25″ “Steev” wheels were available as an option with 235/35R19 tyres. In June 2011 Renault Sport revealed a limited edition 265 PS (261 bhp) version of the Mégane III called the Mégane R.S. Trophy. The Megane R.S. Trophy uses the same 2.0 four-cylinder as the standard 250 PS R.S. but thanks to modifications such as a new air intake and higher turbo pressure it gains an extra 15 hp, increasing the power output to 265 PS. It reaches 0–62 mph in six seconds flat and goes on to a top speed of 254 km/h (157 mph). It is recognizable thanks to model-specific decoration such as Trophy stickers on the doors, a new spoiler and specific 19″ rims with R.S. centre caps. It comes in a model-specific metallic yellow (Jaune Sirius) but is also available in more low-key colours such as white (Blanc Glacier), black (Noir Étoilé) and gray (Gris Cassiopée). Production was limited to 500 examples. In 2012, the Megane R.S. adopted the updated engine from the Trophy version with 265 PS (261 HP) and offers the same “Cup” and “Sport” versions like the previous 250 PS (247 HP) model. Changes include Piano Black interior highlights and wider LED daytime running lights with 6 LEDs per side rather than the 3 LEDs found in the RS250. The 18″ wheels were changed to a new design called “Tibor”, while the 19″ wheels carried over from the 250. Extreme Blue and Sport Yellow were dropped as colour options. In Australia, the Cup and Cup Trophée models were replaced with the Cup, Cup+ and Trophy+ with slightly more flexible specification levels.

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After presenting an initial concept at the 2006 Mondial de l’Automobile, Renault debuted the production Twingo II at the 2007 Geneva Motor Show with French market trim levels named Authentique, Expression, Initiale, Dynamique and GT. Using the floorpan of the Renault Clio II, the Twingo II offered improved crash protection and was available in LHD & RHD configurations. Production began in France and subsequently moved to the Revoz plant in Novo Mesto, Slovenia. In January 2008, Renault debuted the Twingo Renaultsport 133, with a new 133 hp 1,598 cc engine, at the 2008 Geneva Motor Show. In July 2011, Renault debuted a facelifted Twingo II at the Frankfurt Motor Show, featuring a design language subsequently used on their entire range[12] and offering revised fascias as well as redesigned front and rear light clusters. In August 2013, ordering and production of the 133 model ended. Special editions included the Twingo Renaultsport Gordini; Twingo Gordini TCe 100; Twingo Bizu; Twingo Pzaz; Twingo Renaultsport Silverstone GP (UK-only); Twingo Miss Sixty; and Twingo Renaultsport Red Bull RB7. A completely different Twingo, with a rear-engine took over in 2014.

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RENAULT-ALPINE

Another current model, well rated by the press but whose sales have been disappointingly modest is the “new” A110.

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SMART

The Smart Roadster and Roadster Coupé were introduced in 2003, based on a stretched platform of the Fortwo with a full length of 3427 mm. The two variants are meant to be reminiscent of the British roadster of yore, such as the Triumph Spitfire or the MG B. Both the Roadster and Roadster Coupé are available with a removable Targa roof or an electrical softtop. The Roadster is powered by 61 or 82 PS versions of the turbocharged 698cc 3-cylinder Suprex engine in the rear, which is engineered by Mercedes-Benz. The Roadster Coupé has only the more powerful 80 bhp engine. A steering wheel with Formula 1-style paddle-shifters, to control the single-clutch automated manual transmission, is optional. Weighing as little as 790 kg (1,742 lb), the Roadster is intended to provide the emotion of driving a sports car at an affordable cost. Both the Roadster and Roadster Coupé are available in Brabus-tuned versions with power increased to 99 bhp. The Brabus versions have a different twin sports exhaust, lower suspension, polished six-spoke aluminum alloy Monoblock VI 17″ wheels (205/40 ZR17 at the front and 225/35 ZR17 at the rear), front spoiler, side skirts and radiator grille. Exclusive Brabus (Xclusive) interior includes a leather-trimmed dashboard, alloy-effect accent parts, instrument graphics, leather/aluminium gearshift with Brabus labelled starter button, aluminium handbrake handle (which fouls the central armrest), aluminium pedals and Brabus labeled floor mats. The Brabus version also features stronger clamping of the clutch plates and a faster gearchange. The Monoblock wheels are known to be very soft and as a result, are very easy to buckle. The lacquer on these wheels is also very poor, and corrosion can occur very early in the life of the wheel. Despite a projected break-even of only 8-10,000 units per year, first-year sales almost doubled this estimate. However, some Smart Roadsters leaked and production ceased due to the warranty work and other costs reaching an average of €3000 per vehicle. While a critical success, the Smart Roadster was, due to these costs, an economic failure for the company. Influential British motoring television show and magazine Top Gear praised the Roadster, awarding it Fun Car Of The Year for 2005. 43,091 Roadsters were built and put on the shop fronts, with chassis numbers ranging from 00,001 to around 43,400.

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SUBARU

This is a second generation Legacy. Second generation sales in Japan began October 7, 1993, with an introductory price of ¥2,753,000 for the twin turbo GT (approx US$25,250 at 1993 yen exchange rate), and an introduction for model year 1995 in North America with a full body and chassis revision. The exterior was designed by Olivier Boulay, who was hired by Subaru on a short-term basis. The tail light appearance on both the sedan and wagon was influenced by the taillights on the SVX. In 1996, Subaru decided to make AWD standard equipment in all vehicles produced for the North American market, which would be the case until 2012. Subaru still offered a choice between FWD and AWD for its domestic market vehicles for this generation. The Outback was introduced with this generation in 1995 as a trim package, then with increased ground clearance and raised roof line in 1996. Only AWD was offered internationally, and the air suspension with height control was no longer offered. US-spec GT models, first offered in 1990 as a turbocharged sedan or wagon in Japan, and as a trim package for the US version in 1994, became a top level model upgrade in 1996, using the new EJ25D DOHC 2.5 L naturally aspirated engine. “Limited” trim level editions were introduced, offering heated leather, or cloth, seats and trim and a tinted, glass moonroof. The term “Limited” appeared on the “GT”, known as the “GT Limited” in 1998. The term “Limited” was used by itself on the Outback in 1998. Driver and front passenger airbags were added with the redesigned interior as standard equipment in accordance with US Federal Government regulations. 1999 marked the 30th anniversary of Subaru in America, and the last of the second generation in North America. There was a special 30th Anniversary Edition offered in the US with upgraded interior and sunroof, spoiler, alloy wheels on the “L” trim level cars. The US-spec “Brighton” trim level also carried over from the facelifted first generation version that was priced below the “L” trim option. In Japan, the GT/B-Spec was introduced in 1994 with lowered and stiffened suspension and a higher performance rear differential. The next generation of the GT-B was introduced June 1996, with the front and rear struts supplied by Bilstein, with the upgrade also available on the RS. The “B” designation stood for Bilstein. Turbocharged versions continued to be available in markets that used right-hand-drive configurations. Specialty touring and racing versions were available in Japan, as well as the DOHC 2-liter twin sequential turbocharged EJ20H version on both the Legacy GT sedan and wagon with an automatic transmission and the RS sedan and GT-B wagon with the EJ20R and a manual transmission and a slightly higher horsepower rating, both identified as “Boxer 2-stage Twin Turbo” on the engine cover shroud. Sales in Europe were small in comparison to the US and Japan, though some excitement came when a turbo version of the car joined the 2.0 and 2.2 litre regular models.

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This is a P1 version of the first generation Impreza. To counter the grey imports of high-performance Japanese variants, Subaru UK commissioned Prodrive to produce a limited edition of 1,000 two-door cars in Sonic Blue, called the WRX “P1”. Released in March 2000, they were taken from the STI Type R lines and used for the P1. The car was the only coupé version of the WRX STI GC chassis to receive ABS. In order to allow for ABS, the DCCD was dropped. Engine output was boosted to 276 bhp, and the suspension optimised for British roads. Options were available from Subaru consisting of four-piston front brake calipers, electric Recaro seats, 18-inch wheels and a P1 stamped backbox. The P1, or Prodrive One, is echoed in the name of the Prodrive P2 concept car. They are among the most sought after of all Subaru Impreza models now.

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Subaru introduced the “New Age” Impreza, the second generation car, to Japan in August 2000, and it arrived in Europe towards the end of that year. Larger in size compared to the previous iteration, the sedan increased its width by 40 millimetres (1.6 in), while the wagon notably increased by just 5 millimetres (0.2 in)—placing the two variants in different Japanese classification categories. The coupe body style from the first generation did not reappear for the new series, and the off-road appearance package that included contrasting-coloured bumpers did carry over forward. Marketed as a separate model line, this North America-only variant was, as before, badged the Outback Sport. Naturally aspirated flat-four (boxer) engines comprised the 1.5-litre EJ15, the 1.6-litre EJ16, the 2.0-litre EJ20, and the 2.5-litre EJ25. Turbocharged versions of the 2.0- and 2.5-litre engines were offered in the WRX and WRX STI models. STI models featured a more powerful 2.0-litre (2.5-litre outside of the Japanese market) turbocharged engine. WRX models featured a 2.0-litre turbocharged boxer engine until 2005, after which they switched to the 2.5-litre turbocharged engine. As with the first generation, the turbocharged STI variants were available in numerous specifications with a myriad of limited edition variants sold. The bug-eyed styling was not well received, and Subaru had two further attempts at the front end, neither of which was entirely successful, either, but enthusiasts were happy to overlook the gawky looks because the way the car drove. Subaru issued yearly updates to the STI, tweaking cosmetics and equipment levels, and also improving performance and handling. The car was replaced in 2007 by the third generation Impreza, widely regarded as inferior in many ways to this version.

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The second generation Forester was introduced as a 2003 model at the 2002 Chicago Auto Show, based on the new Impreza platform, featuring several fine-tune improvements over the past model. The 2003 Forester features weight-saving refinements such as an aluminium hood, perforated rails, and a hydro-formed front sub-frame. The most noticeable change was the offering of 2.5 L versions (normally aspirated and turbocharged) and in the U.S. the introduction of the turbocharged 2.5-litre model. In the United States, the naturally aspirated X (previously L) and XS (previously S) were released in 2003. In 2004, the turbocharged XT trim was released. However, the same model had been available since the late 1990s elsewhere in the world. The X and XS models feature a 2.5 L SOHC EJ253 engine, while the XT model features a 2.5 L turbocharged DOHC engine. Both engines have timing belt (camshaft). The XT model uses the same Mitsubishi Motors TD04 turbocharger used in the Subaru Impreza WRX.[citation needed] All Forester 2.5 L engines are of the interference engine type. Starting with the 2004 XT, the turbocharged version had Active valve control system cylinder heads. The i-AVLS (active valve lift system) became standard on the naturally aspirated version of the Forester in 2006. This increased horsepower and torque figures to 173 HP and 166 ft-lbs. The 2006 XT received a higher compression ratio to 8.4:1 from 8.2:1. This increased the XT’s power to 230 HP and 235 ft-lbs. For the 2006 model year, Subaru gave the SG a facelift, using redesigned headlights, tail-lights, bonnet, grille, front bumper, and side-mouldings. The Cross Sport model seen here was a Japanese market car which had a 2.0 litre turbo engine generating 220 bhp and some of the styling features of the Foester STi.

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TALBOT

The Sunbeam started off life as a Chrysler, launched in 1977, as the long awaited replacement for the Hillman Imp, production of which had ended a year earlier. Based on a cut-down version of the Avenger chassis, this neat looking hatch was initially offered with a choice of 1.0, 1.3 and 1.6 litre 4 cylinder engines and it retained rear wheel drive at a time when all the rivals were switching front wheel drive This was a move forced upon its maker by the lack of capital to do anything else, but whilst it was not great for space efficiency, it would have an advantage when it came to the sporting versions and indeed for what would turn out to be a very successful career in motorsport. The sporting road cars hit the market in 1979, and these are the only examples of the Sunbeam that you tend to see these days. By the time they hit the market, the Chrysler badging had gone, as a consequence of the sale of Chrysler’s European business to Peugeot-Citroen in the summer of 1978 meant that by mid 1979 a new name was required. The old Talbot branding was dusted off and overnight the cars all became Talbots. The first potent Sunbeam to appear had been the Ti, a sort of modern day version of the Avenger Tiger, with a 110 bhp twin carb 1600cc engine under the bonnet. It went on sale in the spring of 1979, as an appetiser for something more special, which had been unveiled at the Geneva Show in March, a few weeks earlier. The Sunbeam Lotus was the fruits of Chrysler’s commission to sports car manufacturer and engineering company Lotus to develop a strict rally version of the Sunbeam. The resulting ‘”Sunbeam Lotus” was based on the Sunbeam 1.6 GLS, but fitted with stiffer suspension, a larger anti-roll bar and a larger transmission tunnel. The drivetrain comprised an enlarged 2172 cc version of the Lotus 1973 cc 907 engine, a 16 valve slant four engine (the Sunbeam version being type 911, similar to the “Lotus 912”), along with a ZF gearbox, both mounted in the car at Ludham Airfield, close to the Lotus facility in Hethel, Norfolk, where the almost-complete cars were shipped from Linwood. Final inspection, in turn, took place in Stoke, Coventry. In road trim, the Lotus type 911 engine produced 150 bhp at 5,750rpm and 150 lb/ft of torque at 4,500rpm. In rallying trim this was increased to 250 bhp Production cars were not actually ready for deliveries to the public until after the mid-year rebranding, and thus became the “Talbot Sunbeam Lotus”. At first these were produced mostly in black and silver, although later models came in a moonstone blue and silver (or black) scheme. The car saw not only enthusiastic press reviews, but also much success in the World Rally Championship – in 1980, Henri Toivonen won the 29th Lombard RAC Rally in one, and, in 1981, the Sunbeam Lotus brought the entire manufacturer’s championship to Talbot. There is an enthusiastic following for Sunbeam Lotus cars these days.

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TOYOTA

The Starlet 80 series was introduced to the Japanese market in December 1989. It featured a more rounded body style and interior. Japanese models received new twin cam engines: 4E-F, 4E-FE and turbocharged 4E-FTE. Export models retained the 1E and 2E engines, and the special version 4E-FE (only for UK and Hong Kong facelift models). The 1N 1.5-litre diesel engine was also available. The Starlet for Japan and Indonesia have a rear centre garnish and therefore the license plate is mounted on the bumper. The 80 Series Starlets exported to other destinations have their number plates mounted on the hatch centre panel. In Japan, the 80 Series Starlet was again offered in a wide range of variants: Soleil, the best selling Soleil L, S, X, X Limited, Si, Canvas Top, the sports model Gi and GT Turbo. The sports model have different bumpers, headlights, and tail lights from the regular models. Sports bucket front seats and a rear spoiler are also standard on the Gi and GT. The GT has a two-mode (low and high) turbo. The Japanese only full-time 4WD models (EP85) were offered in Soleil L, S, and X Limited grades. New Zealand initially received the 3 door 1.0 XL, 1.3 XL and 1.3 S with manual transmission. In March 1993, the automatic only 5 door 1.3 XL was added into the line up. The 2E-engined versions were carburetted and produce 72 PS. The locally assembled Starlet for Indonesia was offered as 1.0 XL, 1.3 SE and 1.3 SE Limited with only 5-speed manual transmission. Only the 1.0 XL was sold in Singapore. All the Starlets officially sold in the Southeast Asian countries were the 5-door models. The Starlet made its European debut at the 1990 Geneva Auto Show. The 1.3 XLi was the version sold in most European countries. The sporty 1.3 Si was offered in Switzerland. It came with standard sports front seats, three-spoke steering wheel, sunroof, and rear spoiler. The UK model was the 1.0 GL, only offered as a three-door hatchback, replaced by the 1.3 GLi three-door from 1993 onwards. For 1994, the UK models were 1.3 XLi three-door and 1.3 GLi five-door. All GLi models have a sunroof. They were some special editions of 80-series sold in Europe such as 1.3 Jeans in the UK and Germany, 1.3 Dance in Switzerland, and 1.3 Westwood in Belgium, all of these are based on the 1.3 XLi. There was also a van model for certain markets where the tax structure suited such a model, without rear seating and often with blanked out windows in the rear. While van versions of earlier Starlets had always been available in Japan, changes in the tax system meant that the fourth generation Starlet was only sold as a passenger car in the home market. A minor facelift occurred in January 1992, with all Japanese models gaining fuel injection and the discontinuation of the X variant. A new front bumper and revised interior were installed, and the addition of a safety beam inside the doors were added for all models. The S, X Limited, Gi, and GT also gained a new rear centre garnish. In Indonesia the new SE-G replaced the SE Limited. The SE-G has upmarket interior similar to the Japanese X Limited, and shares the redesigned tail lights and trunk garnish with the Gi and GT. For the Hong Kong market, the Japanese model Soleil L 5 door hatchback replaced the old 1.3 XL. The Starlet canvas top Si 1992 with folding canvas roof was offered in Hong Kong and certain European countries. The Starlet EP81 participated in the WRC Acropolis Rally in Greece, and won the A5 class. The Starlet also competed in the Starlet One Make Race in Japan, the Indonesian Touring Car Championship, and rallies in the Caribbean. The second minor update was in May 1994 with new front end and tail lights. The full-wide rear garnish was removed. The hatch trunk now has smooth panel with small garnishes. The Gi and GT featured twin round headlights and mesh grille, also known as “quad” headlights. These minor changes were only extended to Japan, Hong Kong, Indonesia and New Zealand. Hong Kong received Japanese market Soleil L. The 1.3 SE and 1.3 SE-G continued in Indonesia, but the 1.0 XL was discontinued. In New Zealand, the sporty 1.3 S was replaced by the new 1.3 GS. Production in Japan ended in December 1995, but continued in Indonesia until March 1998. The last 80-series in Indonesia was marketed as the “Fantastic Starlet” and nicknamed “turbo look”, with sporty bumpers, grille, and hood from the Japanese Gi. At the beginning, the Starlet was offered in the mid-level SE and top-of-the line SE-G, but later the cheaper model was discontinued.

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Needing little introduction, perhaps, is this car, a 2nd generation MR2. Toyota proved that the market for small affordable sports cars was far from dead when they launched the first generation MR2 in 1984. As was the trend at the time among Japanese manufacturers, models were replaced on quite a regular 4/5 year cycle, so it was little surprise when a second generation car appeared in 1989. However, this one would go on to be produced for 10 years, The overall design changed little in that time, but there were lots of small details that were refined during that time. The car was generally well received, with its “mini Ferrari” looks proving quite an attraction, as were the willing engines and the entertaining handling. There are not that many nice clean examples left now, though.

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The third-generation MR2 was marketed as the Toyota MR-S in Japan, Toyota MR2 Spyder in the US, and the Toyota MR2 Roadster in Europe. Also known as the Midship Runabout-Sports, the newest MR2 took a different approach than its predecessor, most obviously becoming a convertible and receiving the ‘Spyder’ marketing nomenclature. The first prototype of MR-S appeared in 1997 at the Tokyo Motor Show. The MR2 Spyder chief engineer Harunori Shiratori said, “First, we wanted true driver enjoyment, blending good movement, low inertia and light weight. Then, a long wheelbase to achieve high stability and fresh new styling; a mid-engine design to create excellent handling and steering without the weight of the engine up front; a body structure as simple as possible to allow for easy customizing, and low cost to the consumer.” The only engine available for the ZZW30 was the all-aluminium alloy 1ZZ-FED, a 1.8 litre Inline-four engine. Like its predecessors, it used DOHC and 4 valves per cylinder. The intake camshaft timing was adjustable via the VVT-i system, which was introduced earlier on the 1998 MR2 in some markets. Unlike its predecessors, however, the engine was placed onto the car the other way round, with the exhaust manifold towards the rear of the car instead of towards the front. The maximum power of 138 bhp at 6,400 rpm and 126 lb/ft (171 Nm) of torque at 4,400 rpm was quite a drop from the previous generation, but thanks to the lightness of the car it could still move quite quickly, accelerating from 0 to 100 km/h (62 mph) in 6.8 to 8.7 seconds depending on the transmission option, the Sequential Manual being unable to launch and shift as quickly as the clutch operated manual. Curb weight is 996 kg (2,195 lb) for manual transmission models. In addition to the 5-speed manual transmission, a 6-speed manual or 5-speed Sequential Manual Transmission (SMT) was also available starting in 2002. The SMT was a standard feature in Australian market; however, air conditioning was optional. After 2003, a 6-speed SMT was an option. The SMT had no conventional H-pattern shift lever or clutch pedal. The driver could shift gears by tapping the shift lever forward or backward or by pressing steering-wheel mounted buttons. Clutch engagement is automatic, and the car will automatically shift to second and then first gear when stopping. Cruise control was never offered with the manual transmission, but was standard for SMT-equipped cars. The MR2 Spyder featured a heated glass rear window. A hard top was also available from Toyota in Japan and Europe. Production ended in 2007 and there was no direct successor.

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Also here was Toyota’s latest sports car, the GR Supra.

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TRIUMPH

Towards the end of the 1950s Standard-Triumph offered a range of two-seater Triumph sports cars alongside its Standard saloons, the Standard 8 and 10, powered by a small (803 cc or 948 cc) 4-cylinder engine, which by the late 1950s were due for an update. Standard-Triumph therefore started work on the Herald. The choice of the Herald name suggests that the car was originally intended to be marketed as a Standard, as it fits the model-naming scheme of the time (Ensign, Pennant and Standard itself). But by 1959 it was felt that the Triumph name had more brand equity, and the Standard name was phased out in Britain after 1963. Giovanni Michelotti was commissioned to style the car by the Standard-Triumph board, encouraged by chief engineer Harry Webster, and quickly produced designs for a two-door saloon with a large glass area that gave 93 per cent all-round visibility in the saloon variant and the “razor-edge” looks to which many makers were turning. As Fisher & Ludlow, Standard-Triumph’s body suppliers became part of an uncooperative BMC, it was decided that the car should have a separate chassis rather than adopting the newer monocoque construction. The main body tub was bolted to the chassis and the whole front end hinged forward to allow access to the engine. Every panel – including the sills and roof – could be unbolted from the car so that different body styles could be easily built on the same chassis. As an addition to the original coupé and saloon models, a convertible was introduced in 1960. The Standard Pennant’s 4-cylinder 948 cc OHV engine and 4 speed manual gearbox was used with synchromesh on the top three gears and remote gear shift and driving the rear wheels. Most of the engine parts were previously used in the Standard 8/10. The rack and pinion steering afforded the Herald a tight 25-foot turning circle. Coil and double-wishbone front suspension was fitted, while the rear suspension, a new departure for Triumph, offered “limited” independent springing via a single transverse leaf-spring bolted to the top of the final drive unit and swing axles. Instruments were confined to a single large speedometer with fuel gauge in the saloon (a temperature gauge was available as an option) on a dashboard of grey pressed fibreboard. The coupé dashboard was equipped with speedometer, fuel and temperature gauges, together with a lockable glovebox. The car had loop-pile carpeting and heater as standard. A number of extras were available including twin SU carburettors, leather seats, a wood-veneered dashboard, Telaflo shock absorbers and paint options. In late 1958, prototype cars embarked on a test run from Cape Town to Tangiers. An account of the journey was embellished by PR at the time. However only minor changes were deemed necessary between the prototype and production cars. The new car was launched at the Royal Albert Hall in London on 22 April 1959 but was not an immediate sales success, partly owing to its relatively high cost, approaching £700 (including 45 per cent Purchase Tax). In standard single-carburettor form the 34.5 bhp car was no better than average in terms of performance. A saloon tested by The Motor magazine in 1959 was found to have a top speed of 70.9 mph and could accelerate from 0–60 mph in 31.1 seconds. A fuel consumption of 34.5 mpg was recorded. The rear suspension was criticised as yielding poor handling at the extremes of performance though the model was considered easy to drive with its good vision, light steering (smallest turning circle of any production car) and controls, and ease of repair. A Herald S variant was introduced in 1961 with a lower equipment level and less chromium than the Herald, offered in saloon form only. The 948cc Herald Coupe and Convertible models were discontinued in 1961, the 948cc Herald Saloon in 1962 and the Herald S in 1964. Standard-Triumph experienced financial difficulties at the beginning of the 1960s and was taken over by Leyland Motors Ltd in 1961. This released new resources to develop the Herald and the car was re-launched in April 1961 with an 1147 cc engine as the Herald 1200. The new model featured rubber-covered bumpers, a wooden laminate dashboard and improved seating. Quality control was also tightened up. Twin carburettors were no longer fitted to any of the range as standard although they remained an option, the standard being a single down-draught Solex carburettor. Claimed maximum power of the Herald 1200 was 39 bhp, as against the 34.5 bhp claimed for the 948 cc model. One month after the release of the Herald 1200, a 2-door estate was added to the range. Disc brakes became an option from 1962. Sales picked up despite growing competition from the BMC Mini and the Ford Anglia, with the car proving particularly popular to women drivers. The coupé was dropped from the range in late 1964 as it was by then in direct competition with the Triumph Spitfire. The Triumph Courier van, a Herald estate with side panels in place of rear side windows, was produced from 1962 until 1966, but was dropped following poor sales. Production in England ceased in mid-1964. CKD assembly by MCA in Malta continued till late 1965, at least. The Courier was powered by the 1147 cc engine. An upmarket version, the Herald 12/50, was offered from 1963 to 1967. It featured a tuned engine with a claimed output of 51 bhp in place of the previous 39, along with a sliding (Webasto) vinyl-fabric sunroof and front disc brakes as standard. The 12/50, which was offered only as a 2-door saloon, was fitted with a fine-barred aluminium grille. The power output of the 1200, which remained in production alongside the 12/50, was subsequently boosted to 48 bhp. In October 1967 the range was updated with the introduction at the London Motor Show of the Herald 13/60, which was offered in saloon, convertible and estate-bodied versions. The sun-roof remained available for the saloon as an optional extra rather than a standard feature. The front end was restyled using a bonnet similar to the Triumph Vitesse’s and the interior substantially revised though still featuring the wooden dashboard. Interior space was improved by recessing a rear armrest in each side panel. The engine was enlarged to 1296 cc, essentially the unit employed since 1965 in the Triumph 1300, fitted with a Stromberg CD150 carburettor, offering 61 bhp and much improved performance. In this form (though the 1200 saloon was sold alongside it until the end of 1970) the Herald Saloon lasted until December 1970 and the Convertible and Estate until May 1971, by which time, severely outdated in style if not performance, it had already outlived the introduction of the Triumph 1300 Saloon, the car designed to replace it and was still selling reasonably well but, because of its labour-intensive method of construction, selling at a loss. This one is a Herald 13/60.

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Launched at the same time as the Rover 2000 was Triumph’s large saloon car, also called 2000. A replacement for the long running Standard Vanguard, this was the more sporting of the duo, with a subtly different appeal from the Rover. Between them, the cars defined a new market sector in the UK, promising levels of comfort and luxury hitherto associated with larger Rover and Jaguar models, but with usefully lower running costs and purchase prices, all in a modern package. Both added more powerful models to their range, with Rover going down the twin carburettor route, whilst in 1967, Triumph installed a larger 2.5 litre engine and the then relatively new fuel injection system, creating the 2.5PI, which is what was to be seen here. This Lucas system was not renowned for its reliability in the early days, but it did make the car rapid and refined. A facelift in 1969 brought new styling front and rear, which turned out to be a taster for a new grand tourer model which would emerge a few months later, and in this Mark 2 guise, the car was sold until 1977, in both saloon and estate guises. A mid range model, with twin carburettors but the larger engine, the 2500TC was introduced in 1974 and the 2500S arrived in 1975 with more power but also carb fed, to replace the troublesome and thirsty PI. These are the most sought after models now.

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TVR

The Chimaera was the slightly softer version of the Griffith, that was sold from 1993 to 2003. Offered with a choice of 4.0, 4,3 and later 4.5 and 5 litre Rover V8-based engines, this was still an exciting car, and a good looking one as well.

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VAUXHALL

The front-wheel drive Opel Corsa was first launched in September 1982. It went on sale first in France, Italy, and Spain – markets where small cars represented from 34 to 43 percent of sales. Built-in Zaragoza, Spain, the first Corsas were three-door hatchback and two-door saloon models, with four-door and five-door versions arriving in 1984. In certain markets, commercial “van” models were also sold, with or without rear windows depending on local requirements. In mainland Europe, the saloon versions were known as the “Corsa TR” until May 1985 and received an egg-crate grille rather than the four slits used on hatchbacks. The saloons were intended to appeal to customers of the Opel Kadett C and its sister the Vauxhall Chevette who still desired a traditional 3-box sedan shape – but it did not sell particularly well in most of Europe but were popular in Spain and Portugal, among other markets. While only taking ten percent of French Corsa sales during the car’s first half-year, the TR represented half of all Corsas sold in Spain. The basic trim level was called just the Corsa, which was followed by the Corsa Luxus, Corsa Berlina, and the sporty Corsa SR. The SR receives a spoiler which surrounds the rear window, alloy wheels, checkered sport seats, and a somewhat more powerful 70 PS engine. Six years later, the Corsa received a facelift, which included a new front fascia and some other minor changes. The models were called LS, GL, GLS, and GT. The Corsa A was known in the United Kingdom market as the Vauxhall Nova (as it was considered that Corsa sounded too much like “coarser”), where it was launched in April 1983, following a seven-month-long union dispute due to British workers being angry about the car not being built there, in contrast to the rival Ford Fiesta, Austin Metro and Talbot Samba. In addition, there was also a dispute about the disparity of import tariffs, as while cars exported from Spain to the European Community were subject to tariffs of only 4.4 per cent, those exported in the other direction were subject to tariffs as high as 36.7 per cent. Power first came from 1.0 L 45 hp, 1.2 L 55 hp, and 1.3 L 70 hp petrol engines. (The first engines were all equipped with carburettors; fuel injection came later, but never for the 1.0.) The engines were based on the well proven Family II design, except for the 1.0 L and early 1.2 L engines, which were based on the OHV unit from the Kadett C. There was also an Isuzu-built, 67 PS 1.5 L turbo diesel engine available, which was also used in the Isuzu Gemini at around the same time. The diesel joined the line up in May 1987, at the Frankfurt Motor Show, along with the sporty GSi. The engines and most of the mechanical componentry were derived from those used in the Astra/Kadett. In September 1987 the Corsa received a light facelift, with a new grille that was now the same on hatchbacks and sedans, an updated interior, and other slight changes. For the 1989 model year, the 1.3 was bored out to 1.4 liters. Power remained the same, although torque increased. A rare “Sport” model was produced in 1985 to homologate for the sub 1,300 cc class of Group A for the British Rally Championship. These Sport models were white and came with unique vinyl decals, a 13SB engine with twin Weber 40 DCOE carburettors, an optional bespoke camshaft, a replacement rear silencer, and few luxuries. This gave 93 hp and a top speed of 112 mph (180 km/h) with a 0–60 mph time of 8.9 seconds. These are by far the rarest models (500 produced) and thus acquire a high market price if one does become available. A 1.6 L multi point fuel-injected engine with 101 PS at 5600 rpm (98 PS in the catalysed version) and capable of 186 km/h (116 mph) was added to the Corsa/Nova at the 1987 Frankfurt Motor Show, giving decent performance and being badged as a GSi (“Nova GTE” in pre-facelift models in the United Kingdom, later models were all called GSi). The GSi’s engine mapping had been carried out by Opel tuning specialists Irmscher. A model with the 82 PS 1.4 L multi-point fuel-injected engine, which was otherwise mechanically identical to the GSi, also became available as the Nova SRi in the United Kingdom. In January 1988, a turbocharged version of the Isuzu diesel engine was introduced, with power increased to 67 PS. The design was freshened in September 1990, with new bumpers, headlights, grille, and interior, but it was clearly recognisable as a gentle makeover of an early 1980s design when it had to compete with the latest two all-new superminis in Europe – the Peugeot 106 and the Renault Clio. The car was finally replaced in the spring of 1993. Nearly 500,000 Novas were sold in Britain over its ten years on sale. In its best year, 1989, it was Britain’s seventh best selling car with more than 70,000 sales, but by February 2016, only 1,757 were still on the road.

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After 25 years of absence of a full-size Holden coupe, the Monaro made a return in November 2001 following the overwhelming response of the public and media to the VT-based Holden Coupé concept displayed at the 1998 Australian International Motor Show held in Sydney. The third generation of the Monaro was produced from 2001 to 2005. The HSV Coupé saw production through to June 2006, with HSV variants on sale until August 2006. After a gestation period of 22 months (contrary to the planned 12 to 18 months) and at a cost of A$60 million, Holden launched the V2-series Monaro based on the VX-series Commodore. It was available as the CV6, with a supercharged 3.8 L V6 and 4-speed automatic transmission (production ceased in mid-2004), and as the CV8, featuring the 5.7 L LS1 V8, with a choice of either a 6-speed manual or 4-speed automatic transmission. A Series 2 model debuted in December 2002 with a revised dashboard from the VY-series, a new alloy road wheel design and new paint and trim colour choices. The CV6 model was dropped after disappointing sales (reputedly 10 times as many Monaros were built as CV8s) when a Series 3 model appeared in 2004. A limited edition model called the CV8-R was introduced in July 2003, all 350 of which were made in Turbine Mica (grey metallic) paint colour. A revised CV8-R model would appear again in May 2004 (based on the Series 3 CV8), all 320 of which were made in an exclusive Pulse Red paint colour. Other unique features of the 2004 CV8-R cars included 18″ five-spoke machined face alloy wheels, smoked front and rear lamp treatment, and a “Holden By Design” electric sunroof. The interior featured the centre fascia and instrument surrounds in satin finish, “Pulse Red” and black floor-mats with CV8-R logo, a unique instrument cluster with white dial-plate daytime illumination, and leather trimming for the steering wheel, handbrake and transmission selectors (matching anthracite leather was used for the sports seats and door trims, with perforated leather inserts and black stitching). On 12 September 2004, Holden introduced the VZ Monaro CV8 with a 15 kW increase in engine power when compared to the previous V2-series cars. The VZ series at first came in only four paint colours (Phantom, Devil, Turismo and Quicksilver) and later saw the addition of a fifth colour named Fusion, seen only in the closing of production CV8-Z model. The VZ Monaro CV8 was upgraded in other ways too, receiving a 10-speaker audio system with two built-in subwoofers, new front/rear bumper assemblies, dual exhaust system and various other small changes. The revised rear bumper, dual exhaust system, and new hood with air intakes would soon find their way onto the export Pontiac GTO. However, in July 2005, Holden announced that production of the current generation VZ Monaro CV8 would soon be coming to an end and this led to the run of a special edition model called the CV8-Z, of which 1,605 units were ultimately made. The last Holden Monaro-badged coupé was purchased by Emerald, Queensland businessman Darryl Mattingley for A$187,355.55—around three times the normal retail price, on 19 February 2006. The car was bought through eBay, with the proceeds going to the Leukaemia Foundation. The Holden Monaro CV8-Z was produced to farewell the legendary Monaro name, much like what had been done with the LE coupé back in 1976. Wheels magazine tested a CV8-Z in the March 2006 issue with a Ford Mustang GT and a Nissan 350Z. They summed up the test with, “The Monaro eats Mustangs and spits out Nissans. It’s a class act that deserves an encore performance.” The CV8-Z was offered in the same colours as the standard CV8 but to highlight the model, a new colour was introduced called ‘Fusion’ orange/gold metallic with unique colour matching (Fusion and black) leather interior. The CV8-Z had unique features including a sunroof, modified darkened taillights, signature black bonnet scoop accents, special engraved CV8-Z wheels, CV8-Z badging throughout the interior and gun metal chrome CV8-Z badging on the exterior. Tony Hyde, the chief engineer of Holden, announced on his retirement in 2007 that being a part of the development of modern Monaro’s was his proudest achievement. He described the modern Monaro program as “pure emotion” and that his Monaro will be kept next to his 1976 Chevrolet Corvette. The Monaro was used as a basis for various concept cars and was used by several different brands, HSV in Australia, Chevrolet in the Middle East, Pontiac in America and Vauxhall Motors in the United Kingdom.

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VOLKSWAGEN

VW had enjoyed considerable success with the Scirocco, a front wheel drive Hatch that was based on the Golf, and offered a stylish modern alternative to the Ford Capri and Opel Manta. the second generation car did not quite the same favour as the first, but even so there was eager anticipation of what was initially thought would be the third generation car. But as VW looked to push the model further upmarket, they opted for a new name, choosing Corrado for the car, which debuted in 1988. Although the new car’s floorpan was based on that of the Mark 2 Golf/Jetta, there had been a plan that the model would actually replace the Porsche 944. That idea came to nought and the car, built by Karmann, as the Scirocco had been, took its place in the VW range, alongside the Scirocco which remained in production for a further three years. All Corrados were front-wheel drive and featured petrol engines, the car debuting with two engine choices: a 1.8 litre 16-valve inline-four with 136 hp and a troublesome supercharged 1.8 litre eight-valve inline-four, marketed as the G60 and delivering 160 hp. The Corrado G60 was named for the G-Lader with which it was equipped, a scroll supercharger whose interior resembles the letter “G”. Volkswagen introduced two new engines for 1992. The first was a naturally-aspirated 2.0 litre 16-valve 136 bhp inline-four, basically a further development of the 1.8 litre engine; this engine was not made available to the North American market. The second was the 12-valve VR6 engine, which came in two variants: a 2.8 litre 179 bhp model for the US and Canadian markets and a 2.9 litre 187 bhp version for the European market. Upon revising the engine, VW updated the styling with a new front grille and foglamps. With the introduction of the VR6 engine, the G60 engine disappeared from the North American market after 1992 and European market in 1993. The VR6 engine provided a compromise between both V-shaped and straight engines by placing the two cylinder banks at an angle of 15° with a single cylinder head. This design allowed engineers to fit a six-cylinder engine into roughly the same space that was previously occupied by four-cylinder engines, while closely approaching the smoothness of a straight-six design. By the time it was launched, VW had updated the Golf to the Mark 3,and some elements of its A3 platform was introduced on the Corrado with the VR6 announcement, including the suspension components, the rear axle assembly and some parts of the A3’s ‘plus’ type front axle assembly. The subsequent wider front wheel-track of the Corrado VR6 necessitated the fitting of new front wings with wider wheel arches and liners along with a new front bumper assembly. Together with a new raised-style bonnet to accommodate the VR6 engine, these body improvements were carried across the model range. A 2.0 litre eight-valve model with 115 hp was produced in Europe in 1995. A UK-only limited production model, the Corrado Storm, was also sold. Some discreet “Storm” badging, a colour-keyed front grille, an additional Storm badge on the gear gaiter surround (an upgrade from the standard Karmann badge), 15 inch BBS “Solitude” alloy wheels, and standard fitment of some previously optional items (such as the leather heated front seats) were all that differentiated this model from the base Corrado VR6. Only 500 were produced: 250 in Classic Green with a cream leather interior, and 250 in Mystic Blue, a colour unique to the Storm, with a black leather interior. The Storm models are the most desirable of all these days. Production ended in 1995. Although the car was much praised for its handling, and the VR6 engine was sublime, it was costly, Karmann’s build quality was patchy and those who experienced the G60 versions had more than their fair share of reliability issues (A colleague of mine had at least 4 superchargers blow in the first 60,000 miles). All told, 97,521 Corrados were produced.

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VOLVO

This is a 122 “Amazon”. Although costly when new, thanks to the UK’s Import Duty which applied to foreign car imports at the time, the Volvo of this era was surprisingly popular with UK buyers. The cars were tough, as strong success in rallying evidenced, but not that many have survived. There’s a complex history to this model, with lots of different numbers applied to the car during a 13 year production run. When introduced, the car was named the Amason (with an ‘s’), deriving from the fierce female warriors of Greek mythology, the Amazons. German motorcycle manufacturer Kreidler had already registered the name, and the two companies finally agreed that Volvo could only use the name domestically (i.e., within Sweden), modifying the spelling to Amazon. Subsequently, Volvo began its tri-digit nomenclature and the line became known as the 120 Series. Under prototype designation 1200, following the PV444’s internal designation as the 1100, the Amazon was released in the press in February 1956, with production initially set to begin in July of the same year, and deliveries commenced in August 1956 — under the now modified internal designation 120 series. The Amazon sedan’s ponton genre, three-box styling was inspired by US cars of the early 1950s, strongly resembling the Chrysler New Yorker sedan and the Chrysler 300C hardtop Coupe. According to designer Jan Wilsgaard, the Amazon’s styling was inspired by a Kaiser he saw at the Gothenburg harbour. The Amazon featured strong articulation front to rear, pronounced “shoulders”, and slight but visible tailfins. These features became inspiration for Peter Horbury when reconceiving Volvo’s design direction with the V70 after decades of rectilinear, slab-sided, boxy designs. The Amazon’s bodywork was constructed of phosphate-treated steel (to improve paint adhesion) and with heavy use of undercoating and anti-corrosive oil treatment. The Amazon shared the wheelbase, tall posture and high H-point seating of its predecessor, the PV. In 1959 Volvo became the world’s first manufacturer to provide front seat belts as standard equipment — by providing them on all Amazon models, including the export models — and later becoming the first car featuring three-point seat belts as standard equipment. The Amazon’s handbrake location, outboard of the driver’s seat, was intended to accommodate subsequent bench seat models with column shift transmissions — which never materialised. Buyers began to receive the first cars in February 1957, and initial models were two-tone red and black with light grey roof, light grey with a black roof, followed by a dark blue with grey roof in 1958. Further iterations included the 121, the base model with a single carburettor 66 bhp engine, the 122S introduced in 1958 as a performance model equipped with a dual carburettor 85 bhp engine. The estate version was introduced at the 1962 Stockholm Auto Show, and Volvo manufactured 73,000 examples between 1962 and 1969. The Amazon estate featured a two-piece tailgate, with the lower section folding down to provide a load surface and the upper section that hinged overhead. The vehicle’s rear licence plate, attached to the lower tailgate, could fold “up” such that when the tailgate was lowered and the vehicle in use, the plate was still visible. This idea was used by the original 1959 Mini. In recent years a similar arrangement was used on the tailgate of the Subaru Baja. In 1966 the Volvo PV ended production, replaced by the Amazon Favorit, a less expensive version of the Amazon, without exterior chrome trim, a passenger-side sun visor or cigarette lighter, and with a three-speed rather than four-speed transmission — available in black with red interior and later white or black with red interior. The newer Volvo 140 was becoming the company’s mainstream model, and the last of the four-door 120 saloons were produced in 1967, the year which saw the launch of the 123GT, which was a Model 130 with high-compression four-cylinder B18B engine (from the Volvo P1800), M41 gearbox, fully reclining seats, front fog and driving lights (on some markets), alternator, fender mounted mirrors, special steering wheel, dash with a shelf and tachometer, and other cosmetic upgrades. In 1969 the displacement of the old B18 engine was increased and the engine was called the B20. The last Amazon was manufactured on 3 July 1970. By the end of production, 234,653 four-door models, 359,917 two-door models and 73,220 station wagons had been produced, of which 60% were exported; a total of 667,791 vehicles.

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This was a good event. The French themed area was a real surprise, as I was expecting to see mainly recent performance Renault models and instead, I was treated to rather more prosaic cars that were once a common sight but which are now like the proverbial hen’s teeth. Any outdoor event in February is going to be a bit of a gamble with the weather, but even that was on side on this occasion, meaning a good turnout beyond the themed area. I don’t manage to get to this event that often as there is too much else going on, but as luck would have it, I shall be returning in March, as a couple of the Abarth Groups have decided that it is time for a revisit, and my diary is clear to be able to join them. I look forward to that with eager anticipation.

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