La Vie en Bleu with La Vita Rossa – Prescott – May 2018

Held at the end of May every year since 2007, the La Vie en Bleu is the flagship event put on by Prescott Hill Climb. After the weather did its level best to deter everyone in the first couple of years, this weekend celebration of all things French continued to grow, both in terms of the number of cars on display and the crowds that chose to come along and have a look and to take in the charms of this delightful location, on the slopes of the Cotswolds, just north of Cheltenham, and a mile or so from the village of Gotherington, where I was lucky enough to grow up and where my mother still lives in the family home. No event organiser can expect to get away with a mere repeat year on year, though, so whilst the timing and theme of the event remained the same, there was always a lot of work undertaken in the period leading up to La Vie en Bleu to ensure fresh content, with new cars to drool over and revisions to the displays across the site. In 2016 the event underwent a more dramatic change with the decision to add an Italian theme, creating the rather lengthily titled “La Vie en Bleu with La Vita Rossa”. It seemed to work, with the Italian cars, among them many supercars that are such a draw especially for the younger audience, adding much new content and a fresh feel to the event. But then in 2017, it all seemed to go wrong. Car Clubs were told that there would be no reserved spaces, but just a “park as you arrive” concept, and all the large French clubs and their large display units, stayed away. It was a major disappointment, which had occasioned much feedback both before and after the event, and little of it positive. Of course the basics of the event remained, and there was still a good time to be had over both days, but it was not quite the same as it had been in the past. When I saw that in 2018, Clubs were to be welcome back, I breathed a sigh of relief, but in an effort to avoid lots of space between them, the decision was still taken not to allocate generous Club spaces in the past and Clubs were told that to get their cars parked together, they would need to arrive in convoy – not really a practical proposition given the distances many people are travelling. Eager to see if the magic of previous events had been restored, I was very excited by the prospects of the 2018 event. Here is how it turned out:

RENDEZ-VOUS at THE SHUTTER

It always surprises me that more Clubs and other groups of friends do not use the large area outside The Shutter Inn at the western end of Gotherington, as an assembly point, but – perhaps thankfully – the don’t seem to do so, instead driving solo all the way to Prescott. It was the place that I suggested that Abarth Owners Club members should meet, so we could convoy the cars up to Prescott and hopefully park them all in one group. And the plan worked, with a number of cars already present when I arrived – even though I was quite early on the Saturday morning – already waiting, and everyone else turned up by around the 9am target I had declared. Saturday dawned with perfect blue skies so there was time to grab a few photos of the cars in this setting before heading off.

I did not miss the chance to do so on the Sunday, either, as there were mostly a collection of Abarths for the second day.

This is also the meeting point for my friends from TheMotor.net. On the Saturday we were all caught off-guard when Piers Roache pulled up – not just on time for once (!) – in a brand new Jaguar I-Pace. He does work for JLR, but had to admit that this is not his car, or even his company car, but one he had borrowed for the occasion from his boss who is a number of JLR staff driving the model in final shake down before customer deliveries start in a few weeks time. It attracted lots of interest from us all, and would also be a crowd-puller at Prescott. I returned with this group of friends to The Shutter in the evening on the Saturday for a meal – a tradition we established back in 2007 and have fulfilled every year since.

LA VITA ROSSA – THE ITALIAN CARS

The organisers have resisted the idea that one day is allocated to Italian cars and one to French, and to an extent, this message has come across to those who brings their cars, as there were decent numbers of Italian cars present on both days, the “reds” far outnumbering the “blues” on the Saturday and also being the more numerous on the Sunday. As in previous years, selected cars – generally based on rarity and value – were asked to park in the Paddock, and the others in the Orchard. There were no specific Club space allocations, and indeed the French and Italian cars were not necessarily separated, though a combination of the car park marshalls and requests from the drivers seemed to manage to achieve this. Many of the cars were present on both days, but there were a number that made only one visit. Whilst numbers were perhaps down on a couple of years ago, there was still plenty of variety.

ABARTH

A quintet of classic Abarth models were parked backing onto the Start line, where they grabbed everyone’s attention as they walked past. Three different body styles were represented among them.

There is a complex history to the rest of the 600-based Abarths, starting with the 850TC, which actually predates the better known 595/695 cars. Officially known as the Fiat-Abarth 850TC Berlina (Turismo Competizione, or “touring competition”), it was introduced towards the end of 1960, using Fiat 600 bodywork with some modifications, most notably a boxlike structure ahead of the front bumper which held the engine’s oil cooler. The rear wings were usually blistered, to accommodate larger wheels. The engine is a four-cylinder model based on a Fiat unit, with 847 cc capacity and 51 hp. Overall length is 3,090 mm (122 in), overall width is 1,400 mm (55 in), height is 1,380 mm (54 in), wheelbase is 2,000 mm (80 in), and its front and rear track are 1,160 mm (46 in). The fuel tank holds 5.9 imperial gallons, and its empty weight was 793 kg (1,748 lb). The 850TC remained in the price lists until 1966. In 1962 the 850TC Nürburgring was introduced, with 55 PS at 6500 rpm. The name was intended to celebrate the class victory of an Abarth 850TC at the 1961 Nürburgring 500 km race. There followed the 850TC/SS with two more horsepower; this was renamed the 850TC Nürburgring Corsa towards the end of the year. Between 1962 and 1971 the 850cc and 1000cc class cars won hundreds of races all over the World and were commonly called “Giant Killers” due to their superior performance over much larger cars, culminating in a famous dispute with SCCA authorities in the USA when Alfred Cosentino (FAZA) was banned from running his 1970 Fiat Abarth Berlina Corsa 1000 TCR “Radiale” engine because his car was faster (mainly in wet conditions) to many V8 Mustangs, AMC AMX’s and Chev Camaro’s etc.The SCCA authorities dictated FAZA and Cosentino be forced to use an early design engine a non “Radiale” engine from 1962 model in his cars but still achieved 51 Victories from 53 races. The most victories in SCCA racing history, thereby cementing the superiority of the Fiat Abarth Berlina Corsa over larger and more powerful cars.

Abarth produced several tuned versions of the Fiat 850 Berlina, Coupé, and Spider, with ever-increasing displacements. These belonged to the OT series of Abarth cars—standing for Omologata Turismo or “touring homologated”, which also included two-seater sports racing cars. The Fiat-Abarth OT 850, as seen here, was Abarth’s first 850 derivative, introduced in July 1964. Its Tipo 201 engine was the regular saloon’s 847 cc inline-four brought from 34 bhp to 44 bhp. The top speed went up accordingly from 75 mph (120 kn/h) to 81 mph (130 km/h). The OT 850 could be distinguished from the standard Fiat model by its Abarth badging, an asymmetric front ornament with the Abarth shield on the right hand side and the “Fiat Abarth” script on a red field on the left, and wheels with cooling slots. From October of the same year it became available in two guises: OT 850 Oltre 130 (“Over 130”), almost unchanged from the initial model, and OT 850 Oltre 150, with a 52 bhp engine, front disc brakes and a 150 km/h (93 mph) top speed. In October 1964, Abarth added the Fiat-Abarth OT 1000. With engine displacement increased to 982 cc, it produced 60 bhp and 58 lb·ft of torque. The front brakes were changed to discs. Coupe and Spider models would follow from 1965, initially with the same 982cc engine, but it was not long before 1300, 1600 and then 2 litre engines were inserted in the car. There are not many of these in any body style in the UK, but of those that you do see, the Coupe would seem to be the most numerous but on this occasion, there were two of the Berlina models here.

Along with the visually similar, but more powerful 695SS, the 595SS was based on Fiat’s diminutive 500. For the 595 SS, Abarth increased the engine capacity to 594 cc, just under the limit for the European 600cc racing sedan class. High compression 10:1 pistons were used together with a special camshaft, a specific alloy sump, Abarth valve covers and air filter, propped up engine lid and wheels were fitted and of course the exhaust system was a special in house model. This package together with lowered suspension, flared arches and 10 inch rims amounted to what was known as the Assetto Corsa SS model. These cars have become very rare as many were crashed in competition or simply rotted away due to bad rust protection in the 70s A number of recreations have been built, but this is actually an original.

The modern Abarths were all to be found in the Orchard. By arriving in a convoy early in the morning on both days, we were able to get them parked together in a long line, and there was enough space for those who arrived later, generally, to join in, so the cars were not mixed up with other marques. Dominant were the 500-based cars, with the usual variety of different versions of the model in evidence, and ranging from cars that are as delivered by the manufacturer to those which have been modified, in some cases quite heavily.

On the Sunday, there was a 124 Spider here, too, that belonging to Graeme Wear. The eagerly awaited 124 Spider went on sale in September 2016. Not perhaps the best time of the year to launch an open-topped sports car, but there was a backlog of orders from people who had been waiting for some time for their cars, and the first shipment were quickly allocated to customers. A quick reminder as to what this car is: The Abarth 124 Spider was developed in parallel with the Fiat model. It does cost a lot more, and there are those who think you don’t get enough extra for your money, but those who have driven it will tell you otherwise. You certainly get more power. The 1.4 MultiAir turbo unit jumps up from 138bhp to 168bhp, while torque also increases by a modest 10Nm to 250Nm, which gives it a 0-62mph time of 6.8 seconds, which is half a second quicker than the 2.0-litre Mazda MX-5. The top speed is 143mph. It weighs just 1060kg meaning a power-to-weight ratio of 158bhp-per-tonne, and with the new Record Monza exhaust system it sounds great even at idle. The Abarth version gets a stiffer suspension setup than the regular Fiat 124 Spider, with Bilstein dampers and beefed-up anti-roll bars. Bigger Brembo brakes also feature, with aluminium calipers. It can be had with a six-speed manual or six-speed automatic transmission with paddles, and the latter gets a Sport mode for quicker shifts. Some cars here were sporting the ‘Heritage Look’ pack, which is a no-cost option. It brings a matt black bonnet and bootlid, plus red exterior trim detailing and is proving popular. The £29,565 starting price gets you standard equipment such as cruise control, climate control, Bluetooth, a DAB radio and satnav, plus Alcantara black and red (or pure black) seat trim. The automatic gearbox is a £2,035 extra, while an optional visibility pack brings LED DRLs, auto lights and wipers and rear parking sensors. Even a couple of years after the first cars reached the UK, this is a rare sighting, with only around 1500 of them on UK roads.

ALFA ROMEO

Oldest of the Alfa Romeo models here was this 1929 6C 1550. In the mid-1920s, Alfa’s RL was considered too large and heavy, so a new development began. The 2-litre formula that had led to Alfa Romeo winning the Automobile World Championship in 1925, changed to 1.5-litres for the 1926 season. The 6C 1500 was introduced in 1925 at the Milan Motor Show. Series production started in 1927, with the P2 Grand Prix car as a starting point. Engine capacity was now 1,487 cc, as against the P2’s 1,987 cc, while supercharging was dropped. First versions were bodied by James Young and Touring. This one has a James Young body.

The more powerful 6C 1750 was introduced in 1929 in Rome. The car had a top speed of 95 mph, a chassis designed to flex and undulate over wavy surfaces, as well as sensitive geared-up steering. It was produced in six series between 1929 and 1933. The base model had a single overhead cam; Super Sport and Gran Sport versions had double overhead cam engines. Again, a supercharger was available. Most of the cars were sold as rolling chassis and bodied by coachbuilders such as Zagato, and Touring. Additionally, there were 3 examples built with James Young bodywork. In 1929, the 6C 1750 won every major racing event it was entered, including the Grands Prix of Belgium, Spain, Tunis and Monza, as well as the Mille Miglia was won with Giuseppe Campari and Giulio Ramponi, the Brooklands Double Twelve and the Ulster TT was won also, in 1930 it won again the Mille Miglia and Spa 24 Hours. Total production was 2635.

This is a 1934 8C 2300 with a Brianza body. Encouraged by the success of the 6C, Alfa Romeo brought out Jano’s old P2 Grand Prix car for 1930 and commissioned him to design a brand new sports racer and GP car for 1931. The new GP car was a hugely complex twin-engined machine that was hardly competitive, but the new 8C 2300 sports racer has gone into history as one of the finest and most successful racing cars ever constructed. Jano’s biggest priority was designing a new and most importantly larger engine to take on the ever growing competition. As with the P2 of 1924, he opted for a straight eight configuration, but he started with a clean sheet. The engine was built up from two blocks of four cylinders with the gear drive to the overhead camshafts sandwiched in between. This effectively cut the length of the camshafts, which are prone to flexing in engines this long, in half. The two blocks were initially cast in steel, which was soon replaced by a lighter aluminium alloy. Also driven from the centre of the engine was a Roots-Type Supercharger. The displacement was set at just over 2.3 litre engine by virtue of an exceptionally long stroke of 88 mm compared to a bore of 65 mm. In standard trim the engine produced between 155 and 165 bhp. The competition engines were good for around 180 bhp. Towards the end of the 8C 2300s life, many engines were bored out to keep the cars competitive. One of the reasons the 6C was so successful was the nimble and lightweight chassis. Its sheet steel ladder frame was carried virtually unaltered and offered in short (2750 mm) and long (3100 mm) wheelbase versions. Suspension was also very conventional by live axles, semi-elliptic leaf springs and friction dampers all-round. Stopping power was provided by cable operated drums. Bolted to a four-speed gearbox, the straight eight engine was installed behind the front axle. A short wheelbase rolling chassis weighed in at 1000 kg. The chassis were delivered to preferred coach builders Touring and Zagato, who bodied both the street and racing cars. Between 1931 and 1934 a total of 188 chassis were produced in three series, many of which were raced in period. The first 8C 2300 was ready in time make its debut at the 1931 Mille Miglia, a gruelling race even for thoroughly developed cars. Two Zagato bodied cars were entered for Tazio Nuvolari and Luigi Arcangeli. The new 8Cs were blisteringly quick, which could be taken very literally as both suffered from tyre problems throughout the race. This handed the lead to Rudolf Caracciola in the massive 7.1 litre Mercedes-Benz ssK. In a desperate attempt to close the seventeen minute gap, Nuvolari went all out, but eventually crashed out; blinded by the dust cloud of the leader. Revenge came a few weeks later when a fully recovered Nuvolari took the 8C 2300’s first major victory during a very wet Targa Florio. It marked the start of many successful years in these great Italian road races, which were both won by the 8C 2300 three times in a row. The two cars used during the Targa Florio were of a slightly different specification and used a slightly shorter wheelbase of (2650mm). These were built as a stop-gap for Grand Prix racing before the twin-engined ‘Tipo A’ was ready. Both cars were raced side by side during the Italian Grand Prix at Monza on May 25th. The Tipo A’s debut was devastating with a fatal crash in practice with Arcangeli behind the wheel and the two cars entered in the ten hour race retiring very early. Nuvolari jumped from his Tipo A into an 8C 2300 after two hours and together with Giuseppe Campari he won the race. The subsequently built Grand Prix 8C 2300s were referred to as the Monza in honour of this win. Interestingly the slotted radiator cover that became the most typical feature of the ‘Monza’ was not found on the cars that raced in 1931. The 8C 2300 was successfully raced in Grands Prix until it was replaced by the Tipo B Monoposto in 1932. Hot on the heels of the Italian Grand Prix came the 24 Hours of Le Mans for which another distinctly different version of the 8C 2300 was prepared. This time the long chassis was used as additional space was required to fit the mandatory four-seater coachwork, which was built in aluminium by Zagato. Three cars were prepared, but only two were entered in the race after the third had blown its engine in practice. The strongest competition was again formed by the massive ssKs, which were right at home on the French track with its long straights. The Works entered 8C 2300 crashed out after 99 laps, leaving the British entered example to defend the Italians’ honour. Driven by entrant Lord Howe and former Bentley-boy Tim Birkin, the 8C survived the 24 hour race and finished over 100 km ahead of the fastest Mercedes. The 8C dominated the race in the following three editions, scoring a 1-2-3 in 1933 and coming very close to winning the legendary race for a fifth consecutive time in 1935. Although the Bugatti Type 35 has gone into history as the most successful racing car ever, the Alfa Romeo 8C 2300 ranks as a close second or possibly even the Type 35’s equal with three wins in the Mille Miglia, three in the Targa Florio, four at Le Mans and the Grand Prix victory at Monza. For all its successes on the track, it is quite remarkable that the 8C 2300 was available to any customer for road use. One of the reasons the 8C 2300’s successes are forgotten at times is the attention grabbed by the Tipo B Monoposto Grand Prix car and the 8C 2900 sports racer that replaced it. All three of these fantastic machines were designed by the great Vittorio Jano and successfully raced by some of Italy’s greatest racing drivers. The thirties was certainly the finest decade in Alfa Romeo’s history.

On the Sunday, there was a different 8C 2300 here,the fabulous 1933 8C 2300 Corto Touring Spider, belonging to Paul Gregory. Heart of this car, which followed the 6 cylinder 6C 1750 cars, was its 8 cylinder engine, hence the 8C name. designed by Vittorio Jano, this straight 8 unit was Alfa Romeo’s primary racing engine from its introduction in 1931 to its retirement in 1939. In addition to the two-seater sports cars it was used in the world’s first genuine single-seat Grand Prix racing car, the Monoposto ‘Tipo B’ – P3 from 1932 onwards. In its later development it powered such vehicles as the twin-engined 1935 6.3-litre Bimotore, the 1935 3.8-litre Monoposto 8C 35 Type C, and the Alfa Romeo 8C 2900B Mille Miglia Roadster. It also powered top-of-the-range coach-built production models, including a Touring Spider and Touring Berlinetta. The 8C 2300 was the first model to use it, appearing in 1931. It enjoyed huge success racing. The 8C 2300 Spider, driven by Tazio Nuvolari won the 1931 and 1932 Targa Florio race in Sicily, the 1931 Italian Grand Prix victory at Monza gave the “Monza” name to the twin seater GP car, a shortened version of the Spider. The Alfa Romeo factory often added the name of events won to the name of a car. So, the 8C 2300 tipo Le Mans’ was the sport version of the ‘8C 2300’, with a super-charged engine. It had a successful debut in the 1931 Eireann Cup driven by Henry Birkin. It won the 24 Hours of Le Mans in 1931 (Howe-Birkin); 1932 (Chinetti-Sommer); 1933 (Nuvolari-Sommer) and 1934 (Chinetti-Etancelin). Initially, Alfa Romeo announced that the 8C was not to be sold to private owners, but by autumn 1931 Alfa sold it as a rolling chassis in Lungo (long) or Corto (short) form with prices starting at over £1000. The chassis were fitted with bodies from a selection of Italian coach-builders (Carrozzeria) such as Zagato, Carrozzeria Touring, Carrozzeria Castagna, Pininfarina and Brianza, even though Alfa Romeo did make bodies. Some chassis were clothed by coach-builders such as Graber, Worblaufen and Tuscher of Switzerland and Figoni of France. Alfa Romeo also had a practice of rebodying cars for clients, and some racing vehicles were sold rebodied as road vehicles. Some of the famous first owners include Baroness Maud Thyssen of the Thyssen family, the owner of the aircraft and now scooter company Piaggio Andrea Piaggio, Raymond Sommer, and Tazio Nuvolari. This car has quite some history as it has been a Diplomat’s super car and a playboy’s racer in it’s life and has been brought back to it’s former glory from an Arizona barn find box of bits. It was finished just ahead of and shown at the GRRC in September 2014. Born as a long-chassis cabriolet with body by Castagna it was powered by a supercharged 2.3-litre straight eight. It was owned by an Italian diplomat who took it to America with him, where it was sold to the playboy racer Tommy Lee. Subsequent owners weren’t respectful of its Italian power-plant, which was replaced with a Cadillac V8, generally destroying the car! It also had 400 holes drilled in the chassis to lighten it. The beautiful Alfa became a hybrid hot rod, not an uncommon fate in the US at the time. It was subsequently hidden away in shed in Tucson, Arizona, until a chance “˜barn find” by an American enthusiast who stripped out all the original Alfa parts. He was just about to pass them over to renowned Alfa specialist Jim Stokes in Waterlooville for restoration when the American owner was shot dead by his janitor! Paul bought the parts and had them shipped over to Jim, who commenced rebuilding and restoring it in 2011. According to the GRRC website, Paul had had Alfas for years but had always hankered after an 8C, all that held him back was the cost. This project was the only affordable way according to Paul. The car has been recreated as a replica of a Touring of Milan-bodied open tourer 8C“ not how chassis 229 began it’s life, but period correct. Paul ensured its accuracy by photographing and carefully measuring an original Touring-bodied 8C in Italy. It is not a matching numbers car. as it has a Jim Stokes engine (the original is in an 8C in Australia), the body has been made in Britain and the chassis holes are now filled, but with the weld marks showing, to preserve the history of this car. As a Jim Stokes car (a world leading 8C engineer) the car has a fascinating story, great quality with a great exhaust note. It is indeed a very special thing. And the best thing is that Paul uses it wherever possible, and had taken it to numerous events since completion of the rebuild. Fabulous!

Because prices of these cars have reached levels that only the fortunate few can afford, on the rare occasions that they come up for sale, if you want a car that looks like a 30s Alfa, then your only other alternative is to do as David Roots did when he created his car, variously referred to as Alfa Special or a “Bitsarrini”. I had always assumed that it was designed an homage to the 1935 8C Tipo C 35 Monoposto, a race car of which just 8 were built in 1935 and in which Tazio Nuvolari won the 1936 Coppa Ciano, but in fact, the real inspiration, and car of David’s dreams was the 8C2900. This was produced at around the same time in 1935, but to understand it, you have to go back a bit earlier in the 1930s to the equally desirable 8C2300. This was the first car with the now legendary 8 cylinder engine, developed by Vittorio Jano and which went on to score at least one victory in every major race and championship. In its initial 1931 configuration, the engine displaced 2336 cc, it grew gradually to 2905 cc, primarily by increasing the stroke. The engine was created by mounting two alloy blocks of four cylinders on a single crankcase. On top of the two blocks an alloy head was installed, housing two camshafts. Aspiration was forced, through two Roots-Type Superchargers. Although the engine increased in size throughout its career, its layout and auxiliaries remained very much similar to Jano’s 1931 design. One of the best known racing cars powered by the 8 cylinder engine was the Tipo B or P3 of 1932, which is to date considered as one of the finest Grand Prix racers ever constructed. Run by Enzo Ferrari’s Scuderia Ferrari, the Alfa Romeos were almost unbeatable. From its 1931 introduction, the 8C 2300 took four straight victories in the 24 Hours of Le Mans, driven by talented drivers like Tazio Nuvolari and Luigi Chinetti. Tazio Nuvolari’s brilliance was even more visible when driving the P3, the first single seater racer ever. The P3 was unbeaten in 1933, but eventually succumbed to defeat by the greater budgets being spent by Mercedes-Benz and Auto Union. With the rise of the German Grand Prix teams, Alfa Romeo focused more of its attention on sportscar and road racing. Designed specifically for Italy’s most legendary road race, the Mille Miglia, was the 8C 2900. Much like the contemporary Grand Prix racers, the 8C 2900 featured all-round independent suspension, with wishbones at the front and swing-axles at the rear. Installed in the chassis was a 220 bhp version of the 2905cc eight cylinder engine, which was created by mounting two four-cylinder alloy blocks on a single crankcase with twin Roots-type superchargers attached. The suspension was all-independent with wishbones in the front and the rear had swing-axles. A total of six of these road racers, later known as 8C 2900A, were constructed. Three of these were entered in the 1936 running of the Mille Miglia. The new cars were immediately successful and occupied the first three places at the finish with the Brivio and Ongaro driven 8C on top. A year the cars secured a second victory and the next two places. With the winning cars as a base, a road going customer version was constructed. Dubbed 8C 2900B, the road car featured a de-tuned engine, with 40 hp less, but other than that were very similar to the racer and even in this guise they were the fastest production vehicle in the world at the time. Two versions were available, the 2800 mm short wheelbase (Corto) and 3000 mm long wheelbase (Lungo) versions. Most of these were sent to Touring to be fitted with Berlinetta, Spyder and Roadster bodies. With its competition chassis and high top speed it was faster and quicker than anything its competition had to offer. Due to its high price, only a very few of these supercars were constructed, just 10 Lungo and 20 Corto chassis cars. Being very similar to the competition 8C 2900A, it came as no surprise the 8C 2900B was used as a racer as well. To suit this purpose Alfa Romeo constructed a further 13 8C 2900B chassis fitted with the 220 bhp engine. Many of these were fitted with roadster bodies and were entered in road races like the Mille Miglia. After the two 8C 2900A victories in 1936 and 1937, another two victories were scored by the 8C 2900B in 1938 and 1947. No other Alfa Romeo has scored as many Mille Miglia victories as the 8C 2900. Needless to say, on the rare occasions that one of these legends comes up for sale, there is an eight figure price tag, putting the car well out of reach of most of us. Like many of us, David dreamed of owning a car like the original, but unlike most of us, he did the next best thing to paying the millions and decided to create his own. The story starts back in 1989, somewhat deterred by the thought of the hours that could be spent lying underneath a rusty wreck at the side of the road, missing some obscure part that would need to be made specially, he decided to opt for a special combining retro styling with new bodywork and reasonably modern mechanics. A company called Classic Specials created that something, combining a bespoke chassis using MGB mechanics with a Lenham Healey bodyshell. Ten years later, in 1999, at the Castle Combe Classic Action Day he ‘blew’ the trusty B Series engine and that was the turning point which caused him to wonder if he could not actually design his own car. Many of us dream of doing this, but he actually decided to set about the task. Using the MG-Lenham chassis and Lenham Healey rear bodywork, the MG engine and gearbox were replaced with those from a 1969 Alfa Romeo 1750 GTV. Then a body had to be designed and constructed. This was done by making a buck from the aeroscreens forward, which was used to make a mould and moulding. Whilst it is not a precise rendering of the classic 8C2900, the result is impressive and the car always generates lots of positive and appreciative comments whenever it is displayed. Today was no exception.

Oldest of the post-war Alfa cars was this 1900C, one of two cars brought along by Grand Designs’ Kevin McCloud. The Alfa Romeo 1900 was designed by Orazio Satta and was an important development for Alfa Romeo as the marque’s first car built entirely on a production line and first production car without a separate chassis. It was also the first Alfa Romeo offered with left-hand drive. The car was introduced at the 1950 Paris Motor Show. The 1900 was offered in two-door or four-door models, with a new 1,884 cc 90 bhp 4-cylinder twin cam engine. It was spacious and simple, yet quick and sporty. The slogan Alfa used when selling it was “The family car that wins races”, not-so-subtly alluding to the car’s success in the Targa Florio, Stella Alpina, and other competitions. In 1951, the short wheelbase 1900C (c for corto (Italian for short)) version was introduced. It had a wheelbase of 2,500 mm (98.4 in). In the same year the 1900TI with a more powerful 100 bhp engine was introduced, it had bigger valves, a higher compression ratio and it was equipped with a double carburettor. Two years later the 1900 Super and 1900 TI Super (also 1900 Super Sprint) with 1975 cc engine were introduced. The TI Super had two double carburettors and 115 bhp. Transmission was a 4-speed manual on basic versions and 5-speed manual in Super Sprint version, the brakes were drum brakes. The 1900 had independent front suspension (double wishbones, coil springs and hydraulic telescopic shock absorbers) and live rear axle. The chassis was designed specifically to allow coachbuilders to rebody it, the most notable of which was the Zagato designed, 1900 Super Sprint coupé, with an improved engine and custom body design. The Alfa Romeo 1900M AR51 (or “Matta”) is a four-wheel drive off-road vehicle based on the 1900-series.Iginio Alessio, then general manager of Alfa Romeo, was concerned for the viability of the independent Italian Coachbuilding industry–the advent of the unibody chassis design was threatening to put the carrozzerie out of business. Alessio was also a personal friend of Gaetano Ponzoni co-owner of Carrozzeria Touring Superleggera, thus from 1951-1958 Alfa Romeo built five different variations of the 1900 unibody chassis specifically for independent coachbuilders. Alfa Romeo gave official contracts to Touring to build the sporty 1900 Sprint coupé and to Pinin Farina to build an elegant four seat Cabriolet and Coupé. The availability of a suitable chassis led to many other coachbuilders to build versions of the 1900. Carrozzeria Zagato built a small series of coupés with the unofficial designation of 1900 SSZ, designed for racing with an aerodynamic lightweight aluminium body and Zagato’s trademark double bubble roof. One-off specials where numerous from the famous Bertone BAT series of aerodynamic studies, to an infamous sci-fi like Astral spider designed by Carrozzeria Boneschi for Rafael Trujillo the dictator of the Dominican Republic. There was a Barchetta or “Boat Car” made by Ghia-Aigle in Lugano Switzerland designed by Giovanni Michelotti at the request of a wealthy Italian who had two passions: the ‘Riva’ boats and a woman, his mistress, the car has no doors or windscreen wipers. Production at the company’s Milan plant continued until 1959: a total of 21,304 were built, including 17,390 of the saloons.

The Alfa Romeo 1900 M (better known by its nickname Alfa Romeo Matta, meaning “mad”) is a four-wheel drive utility vehicle produced by Italian car manufacturer Alfa Romeo from 1951 to 1954. Developed on request of the Italian Ministry of Defence, it was made in both military (AR 51) and civilian (AR 52) versions. The AR 51 (Autovettura da Ricognizione, “Reconnaissance Car”) was the result of the request of a light reconnaissance vehicle for use on paved, unpaved and mountain roads. A civilian version, the AR 52, was later developed from the military AR 51; several variants were made, adapted for use in agriculture, firefighting, and road maintenance. The Matta was powered by a 1884 cc twin cam, 8-valve inline-four engine with dry sump lubrication. The cylinder head was aluminium and featured hemispherical combustion chambers, while the engine block was cast iron. Output was 64 bhp at 4,400 rpm. The Matta was built from 1952 to 1954, with 2,007 military AR 51s for the Italian Army and 154 civilian AR 52 units produced. In 1954, the Italian army abandoned the AR 51 and switched to the Fiat Campagnola, which was mechanically simpler.

Most numerous of the 105 Series of Giulia models these days are the Coupe, and there were a number of these here. The first car was called the Alfa Romeo Giulia Sprint GT, and was revealed at a press event held at the then newly opened Arese plant on 9 September 1963, and displayed later the same month at the Frankfurt Motor Show. In its original form the Bertone body is known as scalino (step) or “step front”, because of the leading edge of the engine compartment lid which sat 1/4 an inch above the nose of the car. The Giulia Sprint GT can be distinguished from the later models by a number of features including: Exterior badging: Alfa Romeo logo on the front grille, a chrome script reading “Giulia Sprint GT” on the boot lid, and rectangular “Disegno di Bertone” badges aft of the front wheel arches; flat, chrome grille in plain, wide rectangular mesh without additional chrome bars; single-piece chrome bumpers; no overriders. Inside the cabin the padded vinyl dashboard was characterised by a concave horizontal fascia, finished in grey anti-glare crackle-effect paint. Four round instruments were inset in the fascia in front of the driver. The steering wheel was non-dished, with three aluminium spokes, a thin bakelite rim and a centre horn button. Vinyl-covered seats with cloth centres and a fully carpeted floor were standard, while leather upholstery was an extra-cost option. After initially marketing it as a four-seater, Alfa Romeo soon changed its definition of the car to a more realistic 2+2. The Giulia Sprint GT was fitted with the 1,570 cc version of Alfa Romeo’s all-aluminium twin cam inline four (78 mm bore × 82 mm stroke), which had first debuted on the 1962 Giulia Berlina. Breathing through two twin-choke Weber 40 DCOE 4 carburettors, on the Sprint GT this engine produced 105 hp at 6,000 rpm. Like all subsequent models, the Sprint GT was equipped with an all-synchromesh 5-speed manual transmission. The braking system comprised four Dunlop disc brakes and a vacuum servo. The rear brakes featured an unusual arrangement with the slave cylinders mounted on the axle tubes, operating the calipers by a system of levers and cranks. According to Alfa Romeo the car could reach a top speed of “over 180 km/h (112 mph)”. In total 21,902 Giulia Sprint GT were produced from 1963 to 1965, when the model was superseded by the Giulia Sprint GT Veloce. Of these 2,274 were right hand drive: 1,354 cars fully finished in Arese, and 920 shipped in complete knock-down kit form for foreign assembly. For 1966, the Giulia Sprint GT was replaced by the Alfa Romeo Giulia Sprint GT Veloce, which was very similar but featuring a number of improvements: a revised engine—slightly more powerful and with more torque—better interior fittings and changes to the exterior trim. Alongside the brand new 1750 Spider Veloce which shared its updated engine the Sprint GT Veloce was introduced at the 36th Geneva Motor Show in March 1966, and then tested by the international specialist press in Gardone on the Garda Lake. Production had began in 1965 and ended in 1968. The Giulia Sprint GT Veloce can be most easily distinguished from other models by the following features: badging as per Giulia Sprint GT, with the addition of round enamel badges on the C-pillar—a green Quadrifoglio (four-leaf clover) on an ivory background—and a chrome “Veloce” script on the tail panel; black mesh grille with three horizontal chrome bars; the grille heart has 7 bars instead of 6; stainless steel bumpers, as opposed to the chromed mild steel bumpers on the Giulia Sprint GT. The bumpers are the same shape, but are made in two pieces (front) and three pieces (rear) with small covers hiding the joining rivets. Inside the main changes from the Giulia Sprint GT were imitation wood dashboard fascia instead of the previous anti-glare grey finish, front seats revised to a mild “bucket” design, and a dished three aluminium spoke steering wheel, with a black rim and horn buttons through the spokes. The Veloce’s type 00536 engine, identical to the Spider 1600 Duetto’s, featured modifications compared to the Giulia Sprint GT’s type 00502—such as larger diameter exhaust valves. As a result it produced 108 hp at 6,000 rpm, an increase of 3 hp over the previous model, and significantly more torque. The top speed now exceeded 185 km/h (115 mph). Early Giulia Sprint GT Veloces featured the same Dunlop disc brake system as the Giulia Sprint GT, while later cars substituted ATE disc brakes as pioneered on the GT 1300 Junior in 1966. The ATE brakes featured an handbrake system entirely separate from the pedal brakes, using drum brakes incorporated in the rear disc castings. Though the Sprint GT Veloce’s replacement—the 1750 GT Veloce—was introduced in 1967, production continued throughout the year and thirty final cars were completed in 1968. By then total Giulia Sprint GT Veloce production amounted to 14,240 examples. 1,407 of these were right hand drive cars, and 332 right hand drive complete knock-down kits. The Alfa Romeo 1750 GT Veloce (also known as 1750 GTV) appeared in 1967 along with the 1750 Berlina sedan and 1750 Spider. The same type of engine was used to power all three versions; this rationalisation was a first for Alfa Romeo. The 1750 GTV replaced the Giulia Sprint GT Veloce and introduced many updates and modifications. Most significantly, the engine capacity was increased to 1779 cc displacement. Peak power from the engine was increased to 120 hp at 5500 rpm. The stroke was lengthened from 82 to 88.5 mm over the 1600 engine, and a reduced rev limit from 7000 rpm to 6000 rpm. Maximum torque was increased to 137 lb·ft at 3000 rpm. A higher ratio final drive was fitted (10/41 instead of 9/41) but the same gearbox ratios were retained. The result was that, on paper, the car had only slightly improved performance compared to the Giulia Sprint GT Veloce, but on the road it was much more flexible to drive and it was easier to maintain higher average speeds for fast touring. For the United States market, the 1779 cc engine was fitted with a fuel injection system made by Alfa Romeo subsidiary SPICA, to meet emission control laws that were coming into effect at the time. Fuel injection was also featured on Canadian market cars after 1971. Carburettors were retained for other markets. The chassis was also significantly modified. Tyre size went to 165/14 from 155/15 and wheel size to 5 1/2J x 14 instead of 5J x 15, giving a wider section and slightly smaller rolling diameter. The suspension geometry was also revised, and an anti-roll bar was fitted to the rear suspension. ATE disc brakes were fitted from the outset, but with bigger front discs and calipers than the ones fitted to GT 1300 Juniors and late Giulia Sprint GT Veloces. The changes resulted in significant improvements to the handling and braking, which once again made it easier for the driver to maintain high average speeds for fast touring. The 1750 GTV also departed significantly from the earlier cars externally. New nose styling eliminated the “stepped” bonnet of the Giulia Sprint GT, GTC, GTA and early GT 1300 Juniors and incorporated four headlamps. For the 1971 model year, United States market 1750 GTV’s also featured larger rear light clusters (there were no 1970 model year Alfas on the US market). Besides the chrome “1750” badge on the bootlid, there was also a round Alfa Romeo badge. Similar Quadrofoglio badges to those on the Giulia Sprint GT Veloce were fitted on C pillars, but the Quadrofoglio was coloured gold instead of green. The car also adopted the higher rear wheelarches first seen on the GT 1300 Junior. The interior was also much modified over that of earlier cars. There was a new dashboard with large speedometer and tachometer instruments in twin binnacles closer to the driver’s line of sight. The instruments were mounted at a more conventional angle, avoiding the reflections caused by the upward angled flat dash of earlier cars. Conversely, auxiliary instruments were moved to angled bezels in the centre console, further from the driver’s line of sight than before. The new seats introduced adjustable headrests which merged with the top of the seat when fully down. The window winder levers, the door release levers and the quarterlight vent knobs were also restyled. The remote release for the boot lid, located on the inside of the door opening on the B-post just under the door lock striker, was moved from the right hand side of the car to the left hand side. The location of this item was always independent of whether the car was left hand drive or right hand drive. Early (Series 1) 1750 GTV’s featured the same bumpers as the Giulia Sprint GT Veloce, with the front bumper modified to mount the indicator / sidelight units on the top of its corners, or under the bumper on US market cars. The Series 2 1750 GTV of 1970 introduced other mechanical changes, including a dual circuit braking system (split front and rear, with separate servos). The brake and clutch pedals on left hand drive cars were also of an improved pendant design, instead of the earlier floor-hinged type. On right hand drive cars the floor-hinged pedals were retained, as there was no space for the pedal box behind the carburettors. Externally, the series 2 1750 GTV is identified by new, slimmer bumpers with front and rear overriders. The combined front indicator and sidelight units were now mounted to the front panel instead of the front bumper, except again on the 1971-72 US/Canadian market cars. The interior was slightly modified, with the seats retaining the same basic outline but following a simpler design. 44,269 1750 GTVs were made before their replacement came along. That car was the 2000GTV. Introduced in 1971, together with the 2000 Berlina sedan and 2000 Spider, the 2 litre cars were replacements for the 1750 range. The engine displacement was increased to 1962 cc. Oil and radiator capacities remained unchanged. The North American market cars had fuel injection, but everyone else retained carburettors. Officially, both versions generated the same power, 130 hp at 5500 rpm. The interior trim was changed, with the most notable differences being the introduction of a separate instrument cluster, instead of the gauges installed in the dash panel in earlier cars. Externally the 2000 GTV is most easily distinguished by its grille with horizontal chrome bars, featuring protruding blocks forming the familiar Alfa heart in outline, smaller hubcaps with exposed wheel nuts, optional aluminium alloy wheels of the same size as the standard 5. 1/2J × 14 steel items, styled to the “turbina” design first seen on the alloy wheels of the Alfa Romeo Montreal, and the larger rear light clusters first fitted to United States market 1750 GTV’s were standard for all markets. From 1974 on, the 105 Series coupé models were rationalised and these external features became common to post-1974 GT 1300 Junior and GT 1600 Junior models, with only few distinguishing features marking the difference between models. 37,459 2000 GTVs were made before production ended and these days they are very sought after with prices having sky-rocketed in recent years.

On the Saturday there were two examples of the Montreal here, celebrating 50 years since the unveiling of the concept version. During the 1950s, Alfa had undergone a fairly fundamental transformation from producing cars designed for racing or very high-end sports touring road machines, in small quantities, to being a manufacturer of more affordable cars, albeit with a sporting bias to their dynamics. But the desire to produce something exclusive and expensive was not completely lost, and indeed it was re-manifest in the next Alfa to be seen here, the very lovely Montreal. First seen as a concept car in 1967 at Expo 67, the car was initially displayed without any model name, but the public took to calling it the Montreal. It was a 2+2 coupe using the 1.6-litre engine of the Alfa Romeo Giulia TI and the short wheelbase chassis of the Alfa Romeo Giulia Sprint GT, with a body designed by Marcello Gandini at Bertone. One of the two concept cars built for Expo 67 is displayed in the Alfa Romeo Historical Museum in Arese, Italy, while the other is in museum storage. Reaction to the concept was sufficiently encouraging that Alfa decided to put the car into production. The result, the Tipo 105.64, was shown at the 1970 Geneva Motor Show and was quite different from the original, using a 2593 cc 90° dry-sump lubricated V8 engine with SPICA (Società Pompe Iniezione Cassani & Affini) fuel injection that produced around 200 PS (197 hp), coupled to a five-speed ZF manual gearbox and a limited-slip differential. This engine was derived from the 2-litre V8 used in the 33 Stradale and in the Tipo 33 sports prototype racer; its redline was set at 7,000 rpm, unheard of for a V8 at that time. The chassis and running gear of the production Montreal were taken from the Giulia GTV coupé and comprised double wishbone suspension with coil springs and dampers at the front and a live axle with limited slip differential at the rear. Since the concept car was already unofficially known as The Montreal, Alfa Romeo kept the model name in production. Stylistically, the most eye catching feature was the car’s front end with four headlamps partly covered by unusual “grilles”, that retract when the lights are switched on. Another stylistic element is the NACA duct on the bonnet. The duct is actually blocked off since its purpose is not to draw air into the engine, but to optically hide the power bulge. The slats behind the doors contain the cabin vents, but apart from that only serve cosmetic purposes. Paolo Martin is credited for the prototype instrument cluster. The Montreal was more expensive to buy than the Jaguar E-Type or the Porsche 911. When launched in the UK it was priced at £5,077, rising to £5,549 in August 1972 and to £6,999 by mid-1976. Production was split between the Alfa Romeo plant in Arese and Carrozzeria Bertone’s plants in Caselle and Grugliasco outside Turin. Alfa Romeo produced the chassis and engine and mechanicals and sent the chassis to Caselle where Bertone fitted the body. After body fitment, the car was sent to Grugliasco to be degreased, partly zinc coated, manually spray painted and have the interior fitted. Finally, the car was returned to Arese to have the engine and mechanicals installed. It is worth noting that because of this production method, there is not necessarily any correspondence between chassis number, engine number and production date. The Montreal remained generally unchanged until it was discontinued in 1977. By then, production had long ceased already as Alfa were struggling to sell their remaining stock. The total number built was around 3900. None of them were sold in Montreal, Quebec since Alfa did not develop a North American version to meet the emission control requirements in the United States & Canada. The car was both complex and unreliable which meant that many cars deteriorated to a point where they were uneconomic to restore. That position has changed in the last couple of years, thankfully, with the market deciding that the car deserves better, and prices have risen to you whereas a good one would have been yours for £20,000 only a couple of years ago, you would now likely have to pay more than double that.

The Series 3 Spider was previewed in North America for the 1982 model year with the introduction of 2.0 litre Bosch electronic fuel injection to replace the SPICA mechanical injection. The Spider underwent a major styling revamp in 1983, which saw the introduction of black rubber front and rear bumpers. The front bumper incorporated the grille and a small soft rubber spoiler was added to the trunk lid. The change altered the exterior appearance of the car considerably and was not universally praised by enthusiasts. Various other minor mechanical and aesthetic modifications were also made, and the 1600 car (never available in North America) dropped the “Junior” name. The Quadrifoglio Verde (Green Cloverleaf) model was introduced in 1986, with many aesthetic tweaks, including sideskirts, mirrors, new front and rear spoilers, hard rubber boot mounted spoilers with integral 3rd stoplight, unique 15″ alloys and optional removable hardtop. Different interior trim included blood red carpets and grey leather seats with red stitching. The QV was offered in only 3 colours: red, silver and black. It was otherwise mechanically identical to the standard Spider Veloce model, with a 1962 cc double overhead cam, four-cylinder engine (twin two-barrel carburettors in Europe; North American models retained the Bosch L-Jetronic fuel injection introduced for the 1982 model year except that the VVT mechanism was now L-Jet activated) and five-speed manual transmission. The interior was revised with a new centre console, lower dash panels (to meet U.S. regulations) and a single monopod gauge cluster (with electronic gauges). For the North American market a model dubbed the Graduate was added in tribute to the car’s famous appearance in the 1967 film, The Graduate, starring Dustin Hoffman. The Graduate was intended as a less expensive “entry-level” Alfa. While it had the same engine and transmission as the Quadrifoglio and Veloce, it lacked the alloy wheels and luxury features of the other two models. The Graduate model had manual windows, basic vinyl seats, a vinyl top, and steel wheels as standard. Air conditioning and a dealer-installed radio were the only options. It first appeared in 1985 in North America and continued until 1990. Minor changes occurred from 1986 to 89, including new paint colours, a centre high mount stop lamp midway through 1986 for North American models, a move away from the fade-prone brown carpet and new turn signal levers. Some 1988 models featured automatic seatbelts that extended from a large device between the front seats.

Seeking a model to compete against the Ford Corsair, BMW 2000 and Lancia Flavia, Alfa presented a new larger and more upmarket saloon car in January 1968. The result, the 1.8-litre engined 1750 Berlina was introduced in Italy along with the 1750 GT Veloce Coupé and Spider Veloce. Some days later it was displayed at the Brussels Motor Show. The 1750 Berlina was based on the existing Giulia saloon, which continued in production. The 1750 bodyshell had a longer wheelbase than the Giulia, and revised external panels, but it shared many of the same internal panels. The windscreen was also the same. The revisions were carried out by Bertone, and while it resembled the Giulia some of that vehicle’s distinctive creases were smoothed out, and there were significant changes to the trim details. The car’s taillights were later used on the De Tomaso Longchamp. The car had a 1,779 cc twin-carb engine which produced 116 hp with the help of twin carburettors. For the US market the 1750 was equipped with SPICA fuel injection. There was a hydraulic clutch. In 1971, the 1750 Berlina was fitted with an experimental three-speed ZF automatic gearbox. The model designation was 1750A Berlina. According to official Alfa Romeo archives, 252 units were produced with very few surviving to this day. Some 1750A Berlina didn’t have the model plate with production date embossed. The automatic gearbox wasn’t well-suited to the four-cylinder motor due to baulky shifting and ill-chosen gear ratio. Because of this, its fuel consumption was frighteningly high and acceleration was a bit too slow. During 1971 the 1750 series was superceded across the Alfa Romeo range by the 2000 series; creating, in this case, the 2000 Berlina. Key difference was a larger engine, bored and stroked out to 1,962 cc. With two carburettors, this 2 litre Alfa Romeo Twin Cam engine produced 130 hp, giving a top speed of 200 km/h (124 mph) and 0-100 km/h (62 mph) acceleration took 9 seconds. The gearbox was a 5-speed manual though a 3-speed automatic was also offered. A different grille distinguishes the 2000 from 1750, and the external lights were also different between the models. The 1750 had 7 inch diameter outboard headlights, whereas the 2000 had 5 3/4 inch diameter in all four positions. The tail light clusters were also of a simpler design on the 1750. . In USA this engine was equipped with mechanical fuel injection.. A direct replacement in the 1.8-litre saloon class came that same year, in the form of the all-new Alfa Romeo Alfetta, though the two models ran in parallel for the next five years. In 1977 the Alfetta 2000, a two-litre upmarket Alfetta version, replaced the 2000 Berlina. Total sales of the 1750/2000 amounted to 191,000 units over a 10 year production life, 89,840 of these being 2000 Berlinas, of which just 2.200 units fitted with the automatic gearbox. You don’t see these cars that often.

It was nice to see an AlfaSud Ti model here. These characterful small cars evoke a very positive reaction, with many people wistfully recollecting one that they, or their parents, owned back in the 1970s, but observing that the car, whilst divine to drive, simply rusted away almost before your very eyes. There are a lot more of these cars left in the UK than you might imagine, but most of them are on SORN, needing massive restorations that may or may not ever happen. Alfa Romeo had explored building a smaller front wheel drive car in the 1950s but it was not until 1967 that firm plans were laid down for an all-new model to fit in below the existing Alfa Romeo range. It was developed by Austrian Rudolf Hruska, who created a unique engineering package, clothed in a body styled by Giorgetto Giugiaro of ItalDesign. The car was built at a new factory at Pomigliano d’Arco in southern Italy, hence the car’s name, Alfa Sud (Alfa South). January 18, 1968, saw the registration at Naples of a new company named “Industria Napoletana Costruzioni Autoveicoli Alfa Romeo-Alfasud S.p.A.”. 90% of the share capital was subscribed by Alfa Romeo and 10% by Finmeccanica, at that time the financial arm of the government controlled IRI. Construction work on the company’s new state sponsored plant at nearby Pomigliano d’Arco began in April 1968, on the site of an aircraft engine factory used by Alfa Romeo during the war. The Alfasud was shown at the Turin Motor Show three years later in 1971 and was immediately praised by journalists for its styling. The four-door saloon featured an 1,186 cc Boxer water-cooled engine with a belt-driven overhead camshaft on each cylinder head. It also featured an elaborate suspension setup for a car in its class (MacPherson struts at the front and a beam axle with Watt’s linkage at the rear). Other unusual features for this size of car were four-wheel disc brakes (with the front ones being inboard) and rack and pinion steering. The engine design allowed the Alfasud a low bonnet line, making it very aerodynamic (for its day), and in addition gave it a low centre of gravity. As a result of these design features, the car had excellent performance for its engine size, and levels of roadholding and handling that would not be equalled in its class for another ten years. Despite its two-box shape, the Alfasud did not initially have a hatchback. Some of the controls were unorthodox, the lights, turn indicators, horn, wipers and heater fan all being operated by pulling, turning or pushing the two column stalks. In November 1973 the first sport model joined the range, the two-door Alfasud ti—(Turismo Internazionale, or Touring International).Along with a 5-speed gearbox, it featured a more powerful version of the 1.2 engine, brought to 67 hp by adopting a Weber twin-choke carburettor; the small saloon could reach 160 km/h. Quad round halogen headlamps, special wheels, a front body-colour spoiler beneath the bumper and rear black one around the tail distinguished the “ti”, while inside there were a three-spoke steering wheel, auxiliary gauges, leatherette/cloth seats, and carpets in place of rubber mats. In 1974, Alfa Romeo launched a more upscale model, the Alfasud SE. The SE was replaced by the Alfasud L (Lusso) model introduced at the Bruxelles Motor Show in January 1975. Recognisable by its bumper overriders and chrome strips on the door sills and on the tail, the Lusso was better appointed than the standard Alfasud (now known as “normale”), with such features as cloth upholstery, headrests, padded dashboard with glove compartment and optional tachometer. A three-door estate model called the Alfasud Giardinetta was introduced in May 1975. It had the same equipment of the Alfasud “L”. It was never sold in the UK and these models are particularly rare now. The Lusso model was produced until 1976, by then it was replaced with the new Alfasud 5m (5 marce, five speed) model, the first four-door Alfasud with a five-speed gearbox. Presented at the March 1976 Geneva Motor Show, it was equipped like the Lusso it replaced. In late 1977 the Alfasud Super replaced the range topping four-door “5m”; it was available with both the 1.2- and 1.3-litre engines from the “ti”, though both equipped with a single-choke carburettor.The Super introduced improvements both outside, with new bumpers including large plastic strips, and inside, with a revised dashboard, new door cards and two-tone cloth seats. Similar upgrades were applied to the Giardinetta. In May 1978 the Sprint and “ti” got new engines, a 78 hp 1.3 (1,350 cc) and a 84 hp 1.5 (1,490 cc), both with a twin-choke carburettor. At the same time the Alfasud ti received cosmetic updates (bumpers from the Super, new rear spoiler on the boot lid, black wheel arch extensions and black front spoiler) and was upgraded to the revised interior of the Super. The 1.3 and 1.5 engines were soon made available alongside the 1.2 on the Giardinetta and Super, with a slightly lower output compared to the sport models due to a single-choke carburettor. All Alfasuds were upgraded in 1980 with plastic bumpers, new instrument panel, headlamps and rear lights as well as other revisions. The Ti version was now fitted with a twin-carburettor version of the 1490 cc engine that had been fitted to the Sprint the previous year, developing 95 bhp A three-door hatchback was added to the range in 1981 in either SC or Ti trim and the two-door Ti and Giardinetta were deleted from most markets around this time. Belatedly in 1982 the four-door cars were replaced by five-door versions as by now, most of its competitors were producing a hatchback of this size, although some also produced a saloon alternative. The range was topped by the five-door Gold Cloverleaf, featuring the 94 hp engine from the Ti and enhanced interior trim. In 1983 an attempt to keep pace with the hot hatchback market, the final version of the Alfasud Ti received a tuned 1490 cc engine developing 105 PS Now named Quadrifoglio Verde (Green Cloverleaf) this model was also fitted with Michelin low profile TRX tyres on metric rims as well as an enhanced level of equipment. The five-door Alfasud saloons were replaced by the 33 models in 1983. The 33 was an evolution of the AlfaSud’s floorpan and running gear, including minor suspension changes and a change from four-wheel disc brakes to front disc and rear drum brakes to reduce costs. The three-door versions continued for a further year before being replaced by the unsuccessful Alfa Romeo Arna a joint venture between Alfa Romeo and Nissan.

There was a much longer wait for a Coupe version of the AlfaSud than there had been for the larger Alfetta, the Alfasud Sprint being presented to the press in September 1976 in Baia Domizia and shown at the Turin Motor Show in November some five years after the launch of the saloon. Designed by Giorgetto Giugiaro like the AlfaSud, whose mechanicals it was based on, it had a lower, more angular design, featuring a hatchback, although there were no folding rear seats. The AlfaSud Sprint was assembled together with the AlfaSud in the Pomigliano d’Arco plant, located in southern Italy—hence the original “Sud” moniker. Under the Alfasud Sprint’s bonnet there was a new version of the AlfaSud’s 1186 cc four-cylinder boxer engine, stroked to displace 1,286 cc, fed by a twin-choke carburettor and developing 75 hp at 6,000 rpm. Mated to the flat-four was a five-speed, all-synchromesh gearbox. The interior was upholstered in dark brown Texalfa leatherette and tartan cloth. Options were limited to alloy wheels, a quartz clock and metallic paint. In May 1978 the AlfaSud Sprint underwent its first updates, both cosmetic and technical. Engine choice was enlarged to two boxers, shared with the renewed AlfaSud ti, a 78 hp 1.3 (1,350 cc) and a 84 hp 1.5 (1,490 cc); the earlier 1286 cc unit was not offered anymore, remaining exclusive to the AlfaSud. Outside many exterior details were changed from chrome to matte black stainless steel or plastic, such as the wing mirrors, window surrounds and C-pillar ornaments; the B-pillar also received a black finish, the side repeaters changed position and became square, and the front turn signals switched from white to amber lenses. In the cabin the seats had more pronounced bolsters and were upholstered in a new camel-coloured fabric. Just one year later, in June 1979, another engine update arrived and the AlfaSud Sprint became the AlfaSud Sprint Veloce. Thanks to double twin-choke carburettors (each choke feeding a single cylinder) and a higher compression ratio engine output increased to 85 hp and 94 hp, respectively for the 1.3 and 1.5. In February 1983 Alfa Romeo updated all of its sports cars; the Sprint received a major facelift. Thereafter the AlfaSud prefix and Veloce suffix were abandoned, and the car was known as Alfa Romeo Sprint; this also in view of the release of the Alfa Romeo 33, which a few months later replaced the AlfaSud family hatchback. The Sprint also received a platform upgrade, which was now the same as that of the Alfa Romeo 33; this entailed modified front suspension, brakes mounted in the wheels instead of inboard like on the AlfaSud, and drum brakes at the rear end. Three models made up the Sprint range: 1.3 and 1.5, with engines and performance unchanged from the AlfaSud Sprint Veloce, and the new 1.5 Quadrifoglio Verde—1.5 Cloverleaf in the UK. A multitude of changes were involved in the stylistic refresh; there were a new grille, headlamps, wing mirrors, window surrounds and C-pillar ornaments. Bumpers went from chrome to plastic, and large plastic protective strips were added to the body sides; both sported coloured piping, which was grey for 1.3 cars, red for the 1.5 and green for the 1.5 Quadrifoglio. At the rear new trapezoidal tail light assemblies were pieced together with the license plate holder by a black plastic fascia, topped by an Alfa Romeo badge—never present on the AlfaSud Sprint. In the cabin there were new seats with cloth seating surfaces and Texalfa backs, a new steering wheel and changes to elements of the dashboard and door panels. Sprint 1.3 and 1.5 came with steel wheels with black hubcaps from the AlfaSud ti. The newly introduced 1.5 Quadrifoglio Verde sport variant was shown at the March 1983 Geneva Motor Show. Its engine was the 1,490 cc boxer, revised to put out 104 hp at 6,000 rpm; front brake discs were vented and the gearing shorter. In addition to the green bumper piping, also specific to the Quadrifoglio were a green instead of chrome scudetto in the front grille, a rear spoiler and 8-hole grey painted alloy wheels with metric Michelin TRX 190/55 tyres. Inside a three-spoke leather-covered steering wheel, green carpets and sport seats in black cloth with green embroidery. In November 1987 the Sprint was updated for the last time; the 1.3 variant was carried over, while the 1.5 engine was phased out and the 1.5 QV was superseded by the 116 hp Sprint 1.7 Quadrifoglio Verde. The 1,286 cc engine was directly derived from the 33 1.7 Quadrifoglio Verde, and could propel the Sprint from 0 to 100 km/h in 9.3 seconds; to cope with the increased engine power, the 1.7 QV adopted vented brake discs upfront. the coloured piping and side plastic strips were deleted, and the Quadrifoglio had alloy wheels of a new design. A fuel injected and 3-way Catalytic converter-equipped 1.7 variant, with an engine again derived from a 33, was added later for sale in specific markets. There were a total of 116,552 Sprints produced during its lifespan, which lasted from 1976 to 1989. 15 of these formed the basis of the Australian-built Giocattolo sports car, which used a mid-mounted Holden 5.0 group A V8 engine. The Sprint had no direct predecessor or successor. There was a nice example of an original series car here.

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.

Rather than replacing the 916 Series GTV with a single model, Alfa elected to produce two successors., The more commodious of the two, the GT, was the first to appear, making its debut in March 2003 at the Geneva Motor Show, finally going on sale in early 2004. It was built at the Pomigliano plant, alongside the 147 and 159. The GT was based on the Alfa 156 platform, which was also used for the 147, providing the 2-door coupé with genuine five-passenger capacity. It was styled by Bertone. Most mechanicals were taken directly from the 156/147 using the same double wishbone front suspension and MacPherson rear setup. The interior was derived form the smaller hatchback 147 and shared many common parts. The GT shared the same dash layout and functions, the climate control system as well as having a similar electrical system. Some exterior parts were taken from 147 with the same bonnet, wing mirrors and front wings (from 147 GTA). The engine range included both a 1.8 TS, and 2.0 JTS petrol engine, a 1.9 MultiJet turbodiesel, and a top-of-the-range 240 bhp 3.2 V6 petrol. There were few changes during the GT’s production life. In 2006 Alfa introduced a 1.9 JTD Q2 version with a limited slip differential, and also added a new trim level called Black Line. In 2008 Alfa introduced the cloverleaf model as a limited edition complete with new trim levels, lowered suspension, body kit, 18 inch alloy wheels and was only available in the colours black, Alfa red, or blue. with 1.8 and 2.0 litre petrol engines as well as the 1.9 litre Multijet turbo diesel. The GT was acclaimed for its attractive styling and purposeful good looks, in 2004 being voted the world’s most beautiful coupe in the annual ‘World’s Most Beautiful Automobile’ (L’Automobile più Bella del Mondo) awards. The car sold reasonably well, with 80,832 units being produced before the model was deleted in 2010.

The other 916 series replacement cars were the Brera and Spider models, and there were a lot of them here. Visually similar to the 159 models at the front, the Brera and Spider boasted unique styling from the A pillars rearwards. They were offered with the same range of engines as the 159, and thanks to that strong, but rather heavy platform on which they were built, even the 3.2 litre V6 cars were more Grand Tourer than rapid sports car. Pininfarina was responsible for both models. The Brera was first to market, in 2005, with the Spider following in 2006. Production of both ceased in late 2010, by which time 12,488 units of the Spider and 21,786 units of the Brera had been built. It will be very surprising if these do not attain classic status, and the consequent rise in values, though that has not happened yet.

There were a couple of examples of the 4C Competizione here, with both the Coupe and Spider models on show. First seen as a concept at the 2011 Geneva Show, the production model did not debut for a further 2 years. Production got underway later that year at the Maserati plant in Modena, and the first deliveries were late in 2013. Production was originally pegged at 1000 cars a year and a total of just 3500, which encouraged many speculators to put their name down in the hope of making a sizeable profit on selling their cars on. That plan backfired, and in the early months, there were lots of cars for sale for greater than list price. Press reaction to the car has been mixed, with everyone loving the looks, but most of them feeling that the driving experience is not as they would want. Owners generally disagree – as is so often the case! For sure, it has no radio, and no carpets and no luggage space to speak of, but you know that when you buy it. It won’t be the car everyone, but if you can live with these limitations, you are sure to enjoy it. Indeed, all owners I have ever spoke to do love their car. I know I would if I could find space (and funds!) for one in my garage!

Final Alfa of note was a Giulia Quadrifolgio, the highly rated medium-sized sports/executive saloon that Alfa launched in 2015. I managed to rent one for the weekend earlier in the month, and absolutely loved it. A truly brilliant car!

CISITALIA

One of the most special cars of the weekened was this 1947 Cisitalia 202 SMM Nuvolari Special. As you might expect, there is quite a history to the car, which goes back to the 1930s, when Torinese texile industrialist Piero Dusio indulged his passion for motorsport. After winning his class on the 1937 Mille Miglia, he began to explore the possibilities of building his own racing cars. In 1946, the D46 single-seater appeared, built using readily-available Fiat mechanicals within a tubular steel space-frame chassis crafted at Cisitalia’s bicycle factory. The lightweight car swept all before it in the hands of Dusio and some of the greatest names of the day, such as Clemente Biondetti, Piero Taruffi, and Raymond Sommer. The D46 provided the foundations of Cisitalia’s first sports car, the 202, which was engineered by former Fiat aircraft designer Giovanni Savonuzzi. It was the racing variant, the 202 Spyder, which would write one of the greatest legends in motorsport at the 1947 Mille Miglia, when the maestro himself, Tazio Nuvolari, wrung a mighty performance from the little Cisitalia against the more powerful Alfa Romeo of Biondetti. Although suffering from the respiratory disease that would ultimately claim his life, the “Flying Mantuan” put in one of his most mesmerising performances at the head of Cisitalia’s three-car works team. Leading by eight minutes at the Modena checkpoint, only ignition problems caused by the torrential rain denied the maestro a historic victory. Nevertheless, he restarted and pressed on relentlessly to claim 2nd place overall and lead a 2-3-4 result (this particular example car placing 4th overall) for Cisitalia in the world’s most celebrated road race—with the 202 Spyder being dubbed ‘Nuvolari’ in his honour. This car, chassis 002S, was one of the three works entries for the 1947 edition of the Mille Miglia. It was first driven in competition by Dusio himself in May 1947, and it was the only steel prototype Spyder that had some different features, such as shorter doors and other detail work, which made it unique from its sister cars. One month later, Dusio entered chassis 002S into the 1947 Mille Miglia as one of its three works entries, and it was driven by Eugenio Minetti, with Piero Facetti alongside, to an incredible 4th place, in a time of 17 hours and 40 seconds for the 1,133 mile course. After being retired from the works team, the car’s original racing engine, 010, was replaced with unit number 029, documented on the chassis plate, which it retains to this day. The car was sold to an unknown owner in the U.S.A., appearing in the 1951 edition of Sports Cars Illustrated, and it was subsequently owned by a number of American collectors until 1999, when it was returned to Europe. A comprehensive initial restoration was carried out by Bruno Kunis in Zurich, and then this car was taken back to Brescia, where it was a welcome entrant in the Mille Miglia Retrospectives of 2001, 2002, and 2004. After the successful participations at the Mille Miglia Retrospectives, in readiness for sale, it was brought back to bare metal, where the body was checked, and any points of corrosion were repaired before the car was given a bare metal respray in Switzerland. It was auctioned in 2013, selling for €425,600.

FERRARI

There were plenty of Ferrari here, with a strong showing from the Owners Club whose cars extended in a long line along the main driveway into the Orchard. The rarer or more exclusive cars were presented in the Paddock, and these definitely proved popular, as evidenced by the number of people taking photos of the cars and themselves with them.

This is a 275 GTB, from a series of two-seat front-engined V12-powered models produced in GT, roadster, and spyder form by Ferrari between 1964 and 1968. The first Ferrari to be equipped with a transaxle, the 275 was powered by a 3286 cc Colombo 60° V12 engine that produced 280-300 hp. Pininfarina designed the GT and roadster bodies, Scaglietti the rare NART Spyder, among the most valuable of all Ferraris made. The standard 275 GTB coupe came first. It was produced by Scaglietti and was available with 3 or 6 Weber twin-choke carburettors. It was more of a pure sports car than the GT name suggested. Some cars were built with an aluminium body instead of the standard steel body. A Series Two version with a longer nose appeared in 1965. The 275 GTB/4 debuted in 1966. A much updated 275 GTB, it generated 300 bhp from a substantially reworked 3286 cc Colombo V12 engine, still with two valves per cylinder but now with a four-cam engine and six carburettors as standard. In a departure from previous Ferrari designs, the valve angle was reduced three degrees to 54° for a more-compact head. The dual camshafts also allowed the valves to be aligned perpendicular to the camshaft instead of offset as in SOHC engines. It was a dry-sump design with a huge 17 qt (16 litre) capacity. The transaxle was also redesigned. A torque tube connected the engine and transmission, rather than allowing them to float free on the body as before. This improved handling, noise, and vibration. Porsche synchronizers were also fitted for improved shifting and reliability. The 275 GTB/4 could hit 268 km/h (166.5 mph). With new bodywork, it was the first Ferrari to not be offered with wire wheels. A total of 280 were produced through to 1968 when it was replaced by the 365 GTB/4 Daytona.

A relatively rare car, as it only had a short production life was this 365 GTC/4. Replacing the earlier 365 GT 2+2, this was Pininfarina-designed car was a 2+2 grand tourer, based on the chassis of the 365 GTB/4 Daytona, produced only from 1971 to 1972, during which time 505 examples were made. Its chassis and drivetrain, however, were carried over mostly unaltered (apart from a wheelbase stretch to provide more rear seat room) on its successor, the 1972 365 GT4 2+2.. With its wedge shape, fastback silhouette, sharp creases and hidden headlamps the GTC/4’s styling clearly reflects the 365 GTB/4 “Daytona” it was based on. Power steering, electric windows and air conditioning were standard. The cabin was upholstered in mixed leather and tartan fabric, unique to this model and unusualyl for a Ferrari, with full leather upholstery an option. The 365 GTC/4 shared the chassis and engine block as the 365 GTB/4 Daytona, riding on the same wheelbase and suspension. Many changes were made to make it a more comfortable grand tourer than its two-seat predecessor and sibling. These included softer spring rate and a hydraulic power steering. The chassis was a tubular spaceframe, mated to a steel body with aluminium doors and bonnets; as was customary in this period, the bodies were made and finished by Pininfarina in Turin, then sent to Ferrari in Modena for the assembly. The suspension system used transverse A-arms, coil springs coaxial with the shock absorbers (double at the rear), and anti-roll bars on all four corners. Wheels were cast aluminium on Rudge knock-off hubs, while Borrani wire wheels were optional; the braking system used vented discs front and rear. The engine was a Tipo F 101 AC 000 Colombo V12, displacing 4,390 cc. Engine block and cylinder heads were aluminium alloy, with cast iron pressed-in sleeves; chain-driven two overhead camshafts per bank (four in total, as noted by the “4” in the model designation) commanded two valves per cylinder. The V12 was detuned to 340 bhp from the Daytona, to provide a more tractable response suited to a GT-oriented Ferrari. In place of the Daytona’s downdraft setup, six twin-choke side-draft Weber carburettors were used, whose lower profile made possible the car’s lower and sloping bonnet line. The 5-speed all-synchronised manual transmission was bolted to the engine, another difference from the Daytona which used a transaxle. The gearbox was rigidly connected to the alloy housing of the rear differential through a torque tube. Models for export to the United States were fitted with three-point seat belts, side markers and a number of engine modifications to comply with Federal emission standards, including air injection, carbon canister for evaporative emission control and a different exhaust system. On US-specification cars power was down to 320 bhp.

The Dino 308 GT4 was introduced at the Paris Motor Show in 1973. It only gained the “Prancing Horse” badge in May 1976, which replaced the Dino badges on the front, wheels, rear panel and the steering wheel. This has caused major confusion over the years by owners, enthusiasts and judges. During the energy crisis at that time many prospective owners were hesitant to buy such an expensive automobile not badged “Ferrari” being confused at the significance of the Dino name. The GT4 was a groundbreaking model for Ferrari in several ways: it was the first production Ferrari to feature the mid-engined V8 layout that would become the bulk of the company’s business in the succeeding decades, and was the first production Ferrari with Bertone (rather than Pininfarina) designed bodywork. Pininfarina was upset by the decision to give cross-town rival Bertone the design, considering all they had done for Ferrari. The styling featured angular lines entirely different from its curvaceous 2-seater brother, the Dino 246, and was controversial at the time. Some journalists compared it to the Bertone-designed Lancia Stratos and Lamborghini Urraco, also penned by Marcello Gandini. From the cockpit the driver sees only the road. It has perfect 360 degree visibility, no blind spots, upright and comfortable seating position, a real boot, a back seat for soft luggage, and very easy engine access. Enzo Ferrari himself took a major role in its design, even having a mock-up made where he could sit in the car to test different steering, pedals and cockpit seating positioning. The chassis was a tubular spaceframe based on the Dino 246, but was stretched for a 115.2 in wheelbase to make room for the second row of seats. The suspension was fully independent, with double wishbones, anti-roll bars, coaxial telescopic shock absorbers and coil springs on both axles. Niki Lauda helped set up the chassis. The 2927 cc V8 was mounted transversally integrally joined with the 5-speed transaxle gearbox. The engine had an aluminium alloy block and heads, 16-valves and dual overhead camshafts driven by toothed belts; it produced 255 hp in the European version and 240 hp in the American. The induction system used four Weber 40 DCNF carburettors. The GT4 was replaced by the Mondial 8 in 1980 after a production run of 2,826 308s and 840 208s.

The 308 GTB was launched at the Paris Motor Show in 1975 as a direct replacement for the Dino 246. Designed by Pininfarina with sweeping curves and aggressive lines, the 308 has gone on to become one of the most recognised Ferraris of all time. Fitted with a 2.9 litre DOHC V8 engine fed by four Webber 40DCNF Carburettors, the power output of 255bhp was sufficient to propel the 308 from 0 to 60mph in 6.5 seconds and on to a top speed of 159 mph. Tougher emissions standards in the 1980s challenged Ferrari more than many other marques. In 1980, fuel injection was adopted for the first time on the 308 GTB and GTS models, and power dropped quite noticeably from 240 bhp to 214bhp. Two years later, at the 1982 Paris Motor Show, Ferrari launched the 308 quattrovalvole, in GTB and GTS form. The main change from the 308 GTBi/GTSi it succeeded were the 4-valves per cylinder—hence its name, which pushed output back up to 240 hp restoring some of the performance lost to the emission control equipment. The new model could be recognised by the addition of a slim louvred panel in the front lid to aid radiator exhaust air exit, power operated mirrors carrying a small enamel Ferrari badge, a redesigned radiator grille with rectangular driving lights on each side, and rectangular (in place of round) side repeaters. The interior also received some minor updates, such as a satin black three spoke steering wheel with triangular centre; cloth seat centres became available as an option to the standard full leather. Available included metallic paint, a deep front spoiler, air conditioning, wider wheels, 16-inch Speedline wheels with Pirelli P7 tyres, and a satin black roof aerofoil (standard on Japanese market models). Apart from the 32-valve cylinder heads, the V8 engine was essentially of the same design as that used in the 308 GTSi model. The gear and final drive ratios were altered to suit the revised characteristics of the four valves per cylinder engine. One other significant benefit of the QV four valve heads was the replacement of the non-QV models sodium valves which have been known to fail at the joint between the head and the stem. Bosch K-Jetronic fuel injection and Marelli Digiplex electronic ignition were carried over from the GTBi/GTSi. The car was produced in this form until the launch of the 328 models in the autumn of 1985 which had larger 3.2 litre engines and a number of styling changes. 308 GTB models are becoming increasingly sought after, with prices rising steadily and quite steeply.

Introduced at the 1985 Frankfurt Show alongside the Mondial 3.2 series, the Ferrari 328 GTB and GTS (Type F106) were the successors to the Ferrari 308 GTB and GTS which had first been seen in October 1975. While mechanically still based on the 308 GTB and GTS respectively, small modifications were made to the body style and engine, most notably an increase in engine displacement to 3185 cc for increased power and torque output. As had been the case for a generation of the smaller Ferraris, the model name referred to the total cubic capacity of the engine, 3.2 litres, and 8 for the number of cylinders. Essentially the new model was a revised and updated version of the 308 GTS, which had survived for eight years without any radical change to the overall shape, albeit with various changes to the 3-litre engine. The 328 model presented a softening of the wedge profile of its predecessor, with a redesigned nose that had a more rounded shape, which was complemented by similar treatment to the tail valance panel. The revised nose and tail sections featured body colour bumpers integral with the valance panels, which reflected the work done concurrently to present the Mondial 3.2 models, with which they also shared a similar radiator grille and front light assembly layout. Thus all the eight-cylinder cars in the range shared fairly unified front and rear aspects, providing a homogeneous family image. The exhaust air louvres behind the retractable headlight pods on the 308 series disappeared, coupled with an increase in the size of the front lid radiator exhaust air louvre, which had been introduced on the 308 Quattrovalvole models, whilst a new style and position of exterior door catch was also provided. The interior trim also had a thorough overhaul, with new designs for the seat panel upholstery and stitching, revised door panels and pulls, together with more modern switchgear, which complemented the external updating details. Optional equipment available was air conditioning, metallic paint, Pirelli P7 tyres, a leather dashboard, leather headlining to the removable roof panel plus rear window surround, and a rear aerofoil (standard on Japanese market models). In the middle of 1988 ABS brakes were made available as an option, which necessitated a redesign of the suspension geometry to provide negative offset. This in turn meant that the road wheel design was changed to accommodate this feature. The original flat spoke “star” wheels became a convex design, in the style as fitted to the 3.2 Mondial models, whether ABS was fitted or not. The main European market 328 GTS models had a tubular chassis with a factory type reference F 106 MS 100. Disc brakes, with independent suspension via wishbones, coil springs, and hydraulic shock absorbers, were provided all round, with front and rear anti roll bars. There were various world market models, each having slight differences, with right and left hand drive available. The V8 engine was essentially of the same design as that used in the 308 Quattrovalvole model, with an increase in capacity to 3185 cc. The engine retained the Bosch K-Jetronic fuel injection system of its predecessor, but was fitted with a Marelli MED 806 A electronic ignition system, to produce a claimed power output of 270 bhp at 7000 rpm. As with the preceding 308 models the engine was mounted in unit with the all synchromesh five-speed manual transmission assembly, which was below, and to the rear of the engine’s sump. The 328 GTS continued in production for four years, until replaced by the 348 ts model in the autumn of 1989, during which time 6068 examples were produced, GTS production outnumbering the GTB (1344 produced) version almost five to one.

Produced by Ferrari from 1980 through 1993, the Mondial replaced the 208/308 GT4. The “Mondial” name came from Ferrari’s history — the 500 Mondial race car of the early 1950s. Despite its predecessor being Bertone styled, the Mondial saw Ferrari return to Pininfarina for styling. Sold as a mid-sized coupe and, eventually a cabriolet, it was conceived as a ‘usable’ model, offering the practicality of four seats and the performance of a Ferrari. The car had a slightly higher roofline than its stablemates, with a single long door either side, offering easy access and good interior space, reasonable rear legroom while all-round visibility was excellent. The cabriolets also hold the distinction of being the only production automobile in history that has four seats, is rear mid-engined, and is a full convertible. The car body was not built as a monocoque in the same way as a conventional car. The steel outer body produced by the famous Italian coachbuilder Carrozzeria Scaglietti, in nearby Modena, was built over a lightweight steel box-section space frame. The engine cover and rear luggage compartment lids are in light alloy. The seats and interior were trimmed in Connolly hide, contrasting with the body colour. Most cars were painted rosso red, but some were black or silver, and a few were dark blue. The Mondial was the first Ferrari car where the entire engine/gearbox/rear suspension assembly is on a detachable steel subframe. This design made engine removal for a major rebuild or cylinder head removal much easier than it was on previous models. Unusually, the handbrake is situated between the driver’s seat and the inner sill. Once the handbrake is set it drops down so as, not to impede egress and ingress. Instead of the conventional “H” shift pattern, the gearbox has 1st gear situated in a “dog leg” to the left and back, behind reverse. This pattern, otherwise known as a “reverse h-gate”, allows quicker gear shifts between 2nd and 3rd gear, and also between 4th and 5th. The Mondial underwent many updates throughout production. There were four distinct iterations (8, QV, 3.2, and t), with the latter 3 having two variations each. (coupe and cabriolet). The first car was introduced as the Mondial 8 at the 1980 Geneva Auto Salon. It was the first Ferrari to depart from the company’s simple 3-digit naming scheme, and some reviews found it relatively mild, compared to other Ferraris, regarding performance, drawing criticism from some in the motoring press. It used a mid/rear-mounted Bosch K-Jetronic fuel injection V8, shared with the 308 GTBi/GTSi, mounted transversely. The engine used in the 1973 Dino 308 GT4. The K-Jetronic system is mechanical, with a high-pressure pump which streams fuel continuously to the injectors; it does not have a computer, just a few relays to handle the cold start sequence etc. The chassis was also based on the 308 GT4, but with a 100mm (3.9 inch) longer wheelbase at 2,650 mm (104.3 in). The suspension was the classic layout of unequal-length double wishbones and Koni dampers all around. Today, the Mondial 8 is considered one of the marque’s most “practical” vehicles, due to its 214 hp, proven drivetrain, four seats, and relatively low cost of maintenance (major services can be performed without removing the entire engine/transmission subframe). 703 examples were made. The first Mondial engine, although a DOHC design, used just two valves per cylinder. The 1982 Quattrovalvole or QV introduced a new four-valve head; the combustion chamber design purportedly based on the early eighties Formula 1 engine. Again, the engine was shared with the contemporary 308 GTB/GTS QV, and produced a much more respectable 240 hp. Appearance was largely as per the Mondial 8, although with red engine heads and prominent “quattrovalvole” script at the rear. 1,145 coupés built between 1982 and 1985. A new Cabriolet body style added for 1983. Body styling remained the same as the coupé variant, with the roof maintaining the ‘buttress’ design of the roof, though the Cabriolet required the rear seats to be mounted closer together laterally. The introduction of the Cabriolet saw the popularity of the Mondial rise, particularly in the American market, where the convertible body style was highly desirable. The Cabriolet has the added distinction of being the only four-seat, mid-rear engine, convertible automobile ever manufactured in regular production. 629 units were produced between 1983 and 1985, making this the rarest version of the Mondial. Like the Ferrari 328, the Mondial’s engine grew in both bore and stroke to 3,185 cc in 1985. Output was now 270 PS. The Mondial 3.2 was first presented at the 1985 Frankfurt Auto Show in September that year. Available in both Coupé and Cabriolet forms, styling refreshed with restyled and body-coloured bumpers, similar to the 328 with more integrated indicators and driving lamps, and new alloy wheels with a more rounded face. The 3.2 also boasted a major interior update, with a more ergonomic layout and a more rounded instrument binnacle. Later cars, from 1987 onwards, also sported ABS brakes. Fuel injection remained the primarily mechanical Bosch K-Jetronic (CIS) with an O2 sensor in the exhaust providing feedback to a simple computer for mixture trimming via a pulse modulated frequency valve that regulated control fuel pressure. The ignition system was Marelli Microplex, with electronic advance control and one distributor per bank of the V8. The 1988 Mondial 3.2 would be the final model year that retained the relatively low maintenance costs of the 308/328 drivetrain, allowing major service items like timing belt and clutch replacement performed with the engine/transmission package still in the car. The final Mondial evolution was 1989’s Mondial t, which was a substantially changed model. It was visually different from preceding Mondial models, the most recognizable being the redesign of the air intakes to a smaller rectangular shape. Additionally, the door-handles were of a visually different design, as were the front and rear bumpers which became body coloured. New front and rear wings cover wider tracks and are re-profiled to a fuller shape compared to previous models, which feature a rolled lip. The ‘t’ called attention to the car’s new engine/transmission layout: the previously-transverse engine mounted longitudinally while the gearbox remained transverse, thus forming a ‘t’. By adopting this layout, a longer engine could be mounted lower in the chassis, improving handling dramatically. The ‘t’ configuration was used by Ferrari’s Formula One cars of the 1980s, and would be the standard for the marque’s future mid-engined V8 cars, beginning with the 348, introduced later in the year. The transverse manual gearbox fitted with a Limited Slip Differential with a twin-plate clutch design with bevel gears driving the wheels. Later in production, a Semi-automatic transmission termed “Valeo” was available as an option; while shifting was using a traditional gear lever, the clutch was actuated automatically without a clutch pedal. The engine was up to 3405 cc and 300 hp, controlled by Bosch Motronic DME 2.5 (later DME 2.7) electronic engine management that integrated EFI and ignition control into a single computer unit. Two of these used in the car: one for each bank of the engine. Engine lubrication upgraded to a dry-sump system. The Mondial’s chassis would underpin a new generation of 2-seat Ferraris, right up to the 360, but the 2+2 Mondial would end production just four and a half years later in 1993. However, the “t” layout of the engine and transaxle, adapted from Ferrari’s Formula One cars, continues to be used in mid-engined V8 model Ferraris to date, albeit with a more sophisticated chassis. The new layout saw the engine and transmission mounted on a removable subframe; the assembly removed from the underside of the vehicle for maintenance. This process is necessary for timing belt replacement, making this a costly procedure for the owner who does not have a lift. On the other hand, the clutch was now located at the very rear of the drive train. This arrangement makes clutch replacement and service a simple, inexpensive, and readily owner-doable proposition. The “t” was home to other Ferrari firsts: It used power assisted steering for the first time and had a 3-position electronically controlled suspension for a variable tradeoff between ride quality and road holding. It also had standard ABS. Total production of the t Coupe was 858 (45 Right Hand Drive), and the t Cabriolet of 1,017 (51 Right Hand Drive, meaning that around 6000 Mondial cars were produced over those 13 years, making it one of the most commercially significant Ferraris to date.

Object of many a poster on a young enthusiast’s bedroom wall when the car was new was the Testarossa and there was a couple of nice examples here. A replacement for the BB512i, the final iteration of Ferrari’s first ever mid-engined road car, the Testarossa was launched at the Paris Show in October 1984. The Pininfarina-designed car was produced until 1991, with the same basic design then going through two model revisions, with the 512 TR and later F512 M which were produced from 1992 to 1996 before the model was replaced by the front-engined 550 Maranello. Almost 10,000 Testarossas, 512 TRs, and F512 Ms were produced, making it one of the most-produced Ferrari models, despite its high price and exotic design. The Testarossa followed the same concept as the BB512, but was intended to fix some of the criticisms of the earlier car, such as a cabin that got increasingly hot from the indoor plumbing that ran between the front-mounted radiator and the midships-mounted engine and a lack of luggage space. This resulted in a car that was larger, and at 1,976 millimetres (78 in) wide the Testarossa was half a foot wider than the Boxer and immediately condemned for being too wide, though these days it does not appear anything like as wide as it did when new. This resulted in an increased wheelbase that stretched about 64 mm (2.5 in) to 2,550 mm (100 in) which was used to accommodate luggage in a carpeted storage space under the front forward-opening lid. The increase in length created extra storage space behind the seats in the cabin. Headroom was also increased with a roofline half an inch taller than the Boxer. The design came from Pininfarina with a team of designers led by design chief Leonardo Fioravanti, the designer of many contemporary Ferraris. The design was originated by Nicosia, but the guidance of Fioravanti was equally important. Being a trained aerodynamicist, Fioravanti applied his know-how to set the aerodynamics layout of the car. This meant the large side intakes were not only a statement of style but actually functional – they drew clean air to cool the side radiators and then went upward and left the car through the ventilation holes located at the engine lid and the tail. As a result, the Testarossa did not need a rear spoiler like Lamborghini’s Countach yet produced zero lift at its rear axle. The aerodynamic drag coefficient of 0.36 was also significantly better than the Lamborghini’s 0.42. Pininfarina’s body was a departure from the curvaceous boxer—one which caused some controversy. The side strakes sometimes referred to as “cheese graters” or “egg slicers,” that spanned from the doors to the rear wings were needed for rules in several countries outlawing large openings on cars. The Testarossa had twin radiators in the back with the engine instead of a single radiator up-front. In conjunction the strakes provided cool air to the rear-mounted side radiators, thus keeping the engine from overheating. The strakes also made the Testarossa wider at the rear than in the front, thus increasing stability and handling. One last unique addition to the new design was a single high mounted rear view mirror on the driver’s side. On US based cars, the mirror was lowered to a more normal placement in 1987 and quickly joined by a passenger side rear view mirror for the driver to be able to make safe easy lane changes. Like its predecessor, the Testarossa used double wishbone front and rear suspension systems. Ferrari improved traction by adding 10-inch-wide alloy rear wheels. The Testarossa drivetrain was also an evolution of the BB 512i. Its engine used near identical displacement and compression ratio, but unlike the BB 512i had four-valve cylinder heads that were finished in red. The capacity was 4,943 cc, in a flat-12 engine mid mounted. Each cylinder had four valves, lubricated via a dry sump system, and a compression ratio of 9.20:1. These combined to provide a maximum torque of 490 Nm (361 lb/ft) at 4500 rpm and a maximum power of 390 hp at 6300 rpm. That was enough to allow the Testarossa to accelerate from 0–60 mph in 5.2 seconds and on to 100 mph. The original Testarossa was re-engineered for 1992 and released as the 512 TR, at the Los Angeles Auto Show, effectively as a completely new car, with an improved weight distribution of 41% front: 59% rear. The F512 M was introduced at the 1994 Paris Auto Show, with the M standing for “modificata”. That car is easy to spot as it lost the pop-up headlights and gained awkward glazed in units.

Launched in May 1994 as an evolution of the Ferrari 348, just about everything was changed, and improved for the F355, seen here in Berlinetta and Targa formats. Design emphasis for the F355 was placed on significantly improved performance, but driveability across a wider range of speeds and in different environments such as low-speed city traffic was also addressed, as the Honda NS-X had proved that you could make a supercar that could be lived with every day. Apart from the displacement increase from 3.4 to 3.5 litres, the major difference between the V8 engine in the 348 and F355 was the introduction of a 5-valve cylinder head. This new head design allowed for better intake permeability and resulted in an engine that was considerably more powerful, producing 375 hp. The longitudinal 90° V8 engine was bored 2mm over the 348’s engine, resulting in the small increase in displacement. The F355 had a Motronic system controlling the electronic fuel injection and ignition systems, with a single spark plug per cylinder, resulting in an unusual 5 valves per cylinder configuration. This was reflected in the name, which did not follow the formula from the previous decades of engine capacity in litres followed by number of cylinders such as the 246 = 2.4 litres and 6 cylinders and the 308 of 3.0 litres and 8 cylinders. For the F355, Ferrari used engine capacity followed by the number of valves per cylinder (355 = 3.5 litres engine capacity and 5 valves per cylinder) to bring the performance advances introduced by a 5 valve per cylinder configuration into the forefront. 5. The frame was a steel monocoque with tubular steel rear sub-frame with front and rear suspensions using independent, unequal-length wishbones, coil springs over gas-filled telescopic shock absorbers with electronic control servos and anti-roll bars. The car allows selection between two damper settings, “Comfort” and “Sport”. Ferrari fitted all road-going F355 models with Pirelli tires, size 225/40ZR 18 in front and 265/40 ZR 18 in the rear. Although the F355 was equipped with power-assisted steering (intended to improve low-speed driveability relative to the outgoing 348), this could optionally be replaced with a manual steering rack setup by special order. Aerodynamic designs for the car included over 1,300 hours of wind tunnel analysis. The car incorporates a Nolder profile on the upper portion of the tail, and a fairing on the underbody that generates downforce when the car is at speed. These changes not only made the car faster but also much better to drive,m restoring Ferrari to the top of the tree among its rivals. At launch, two models were available: the coupe Berlinetta and the targa topped GTS, which was identical to the Berlinetta apart from the fact that the removable “targa-style” hard top roof could be stored behind the seats. The F355 would prove to be last in the series of mid-engined Ferraris with the Flying Buttress rear window, a lineage going back to the 1965 Dino 206 GT, unveiled at the Paris Auto Show. The Spider (convertible) version came later in the year. In 1997 the Formula One style paddle gear shift electrohydraulic manual transmission was introduced with the Ferrari 355 F1 adding £6,000 to the dealer asking price. This system promised faster gearchanges and allowed the driver to keep both hands on the steering wheel, It proved to be very popular and was the beginning of the end for the manual-transmission Ferrari. Ferrari produced 4,871 road-going Berlinetta models, of which 3,829 were 6-speed and 1,042 were F1 transmissions. The Spider proved to be the second-most popular F355 model, with a total production of 3,717 units, of which 2,664 were produced with the 6-speed transmission and another 1,053 produced with the F1 transmission. A total of 2,577 GTS models were produced, with 2,048 delivered with the 6-speed transmission and another 529 with the F1 transmission. This was the last GTS targa style model produced by Ferrari. This made a total production run of 11,273 units making the F355 the most-produced Ferrari at the time, though this sales record would be surpassed by the next generation 360 and later, the F430. Seen here were both a Berlinetta and a Spider.

It was with the 360 Modena that sales of Ferrari models really took off, with unprecedented volumes of the car being sold. The 360 Modena was launched in 1999, named after the town of Modena, the birthplace of Enzo Ferrari. A major innovation in this all new model came from Ferrari’s partnership with Alcoa which resulted in an entirely new all-aluminium space-frame chassis that was 40% stiffer than the F355 which had utilised steel. The design was 28% lighter despite a 10% increase in overall dimensions. Along with a lightweight frame the new Pininfarina body styling deviated from traditions of the previous decade’s sharp angles and flip-up headlights. The new V8 engine, common to all versions, was of 3.6 litre capacity with a flat plane crankshaft, titanium connecting rods and generates 400 bhp Despite what looks like on paper modest gains in reality the power to weight ratio was significantly improved on over the F355, this was due to the combination of both a lighter car and more power. The 0 to 100 km/h acceleration performance improved from 4.6 to 4.3 seconds. The first model to be rolled out was the 360 Modena, available as a manual, or an F1 electrohydraulic manual. Next up was an open car. The 360 was designed with a Spider variant in mind; since removing the roof of a coupe reduces the torsional rigidity, the 360 was built for strength in other areas. Ferrari designers strengthened the sills, stiffened the front of the floorpan and redesigned the windscreen frame. The rear bulkhead had to be stiffened to cut out engine noise from the cabin. The convertible’s necessary dynamic rigidity is provided by additional side reinforcements and a cross brace in front of the engine. Passenger safety is ensured by a strengthened windscreen frame and roll bars. The 360 Spider displays a curvilinear waistline. The fairings imply the start of a roof, and stable roll bars are embedded in these elevations. Due to use of light aluminium construction throughout, the Spider weighs in only 60 kg heavier than the coupé. As with the Modena version, its 3.6 litre V8 with 400 bhp is on display under a glass cover. The engine — confined in space by the convertible’s top’s storage area — acquires additional air supply through especially large side grills. The intake manifolds were moved toward the center of the engine between the air supply conduits in the Spider engine compartment, as opposed to lying apart as with the Modena. In terms of performance, the 0-60 mph time was slightly slower at 4.4 seconds due to the slight weight increase, and the top speed was reduced from 189 to 180 mph. Despite the car’s mid-mounted V8 engine, the electrically operated top is able to stow into the compartment when not in use. The convertible top was available in black, blue, grey and beige. The transformation from a closed top to an open-air convertible is a two-stage folding-action that has been dubbed “a stunning 20 second mechanical symphony”. The interior of the Spider is identical to that of the coupé. There were several examples of both the Modena Coupe and the Spider here.

There were several examples of the F430 here, of course, as this car sold in what were large quantities, by Ferrari standards. Effectively a mid-life update to the 360 Modena, the F430 debuted at the 2004 Paris Motor Show. Designed by Pininfarina, under the guidance of Frank Stephenson, the body styling of the F430 was revised from the 360 Modena, to improve its aerodynamic efficiency. Although the drag coefficient remained the same, downforce was greatly enhanced. Despite sharing the same basic Alcoa Aluminium chassis, roof line, doors and glass, the car looked significantly different from the 360. A great deal of Ferrari heritage was included in the exterior design. At the rear, the Enzo’s tail lights and interior vents were added. The car’s name was etched into the Testarossa-styled driver’s side mirror. The large oval openings in the front bumper are reminiscent of Ferrari racing models from the 60s, specifically the 156 “sharknose” Formula One car and 250 TR61 Le Mans cars of Phil Hill. Designed with soft-top-convertible. The F430 featured a 4.3 litre V8 petrol engine of the “Ferrari-Maserati” F136 family. This new power plant was a significant departure for Ferrari, as all previous Ferrari V8’s were descendants of the Dino racing program of the 1950s. This fifty-year development cycle came to an end with the entirely new unit. The engine’s output was 490 hp at 8500 rpm and 343 lb/ft of torque at 5250 rpm, 80% of which was available below 3500rpm. Despite a 20% increase in displacement, engine weight grew by only 4 kg and engine dimensions were decreased, for easier packaging. The connecting rods, pistons and crankshaft were all entirely new, while the four-valve cylinder head, valves and intake trumpets were copied directly from Formula 1 engines, for ideal volumetric efficiency. The F430 has a top speed in excess of 196 mph and could accelerate from 0 to 100 km/h in 3.9 seconds, 0.6 seconds quicker than the old model. The brakes on the F430 were designed in close cooperation with Brembo (who did the calipers and discs) and Bosch (who did the electronics package),resulting in a new cast-iron alloy for the discs. The new alloy includes molybdenum which has better heat dissipation performance. The F430 was also available with the optional Carbon fibre-reinforced Silicon Carbide (C/SiC) ceramic composite brake package. Ferrari claims the carbon ceramic brakes will not fade even after 300-360 laps at their test track. The F430 featured the E-Diff, a computer-controlled limited slip active differential which can vary the distribution of torque based on inputs such as steering angle and lateral acceleration. Other notable features include the first application of Ferrari’s manettino steering wheel-mounted control knob. Drivers can select from five different settings which modify the vehicle’s ESC system, “Skyhook” electronic suspension, transmission behaviour, throttle response, and E-Diff. The feature is similar to Land Rover’s “Terrain Response” system. The Ferrari F430 was also released with exclusive Goodyear Eagle F1 GSD3 EMT tyres, which have a V-shaped tread design, run-flat capability, and OneTRED technology. The F430 Spider, Ferrari’s 21st road going convertible, made its world premiere at the 2005 Geneva Motor Show. The car was designed by Pininfarina with aerodynamic simulation programs also used for Formula 1 cars. The roof panel automatically folds away inside a space above the engine bay. The conversion from a closed top to an open-air convertible is a two-stage folding-action. The interior of the Spider is identical to that of the coupé. Serving as the successor to the Challenge Stradale, the 430 Scuderia was unveiled by Michael Schumacher at the 2007 Frankfurt Auto Show. Aimed to compete with cars like the Porsche RS-models and the Lamborghini Gallardo Superleggera it was lighter by 100 kg/220 lb and more powerful (510 PS) than the standard F430. Increased power came from a revised intake, exhaust, and an ion-sensing knock-detection system that allows for a higher compression ratio. Thus the weight-to-power ratio was reduced from 2.96 kg/hp to 2.5 kg/hp. In addition to the weight saving measures, the Scuderia semi-automatic transmission gained improved “Superfast”, known as “Superfast2”, software for faster 60 millisecond shift-times. A new traction control system combined the F1-Trac traction and stability control with the E-Diff electronic differential. The Ferrari 430 Scuderia accelerates from 0-100 km/h in 3.6 seconds, with a top speed of 202 miles per hour. Ferrari claimed that around their test track, Fiorano Circuit, it matched the Ferrari Enzo, and the Ferrari F430’s successor, the Ferrari 458. To commemorate Ferrari’s 16th victory in the Formula 1 Constructor’s World Championship in 2008, Ferrari unveiled the Scuderia Spider 16M at World Finals in Mugello. It is effectively a convertible version of the 430 Scuderia. The engine produces 510 PS at 8500 rpm. The car has a dry weight of 1,340 kg, making it 80 kg lighter than the F430 Spider, at a curb weight of 1,440 kg (3,175 lb). The chassis was stiffened to cope with the extra performance available and the car featured many carbon fibre parts as standard. Specially lightened front and rear bumpers (compared to the 430 Scuderia) were a further sign of the efforts Ferrari was putting into this convertible track car for the road. Unique 5-spoke forged wheels were produced for the 16M’s launch and helped to considerably reduce unsprung weight with larger front brakes and callipers added for extra stopping power (also featured on 430 Scuderia). It accelerates from 0-100 km/h in 3.7 seconds, with a top speed of 315 km/h (196 mph). 499 vehicles were released beginning early 2009 and all were pre-sold to select clients.

Firmly placed in Ferrari’s history as one of their finest big GTs, the 550 Maranello’s combination of stylish Pininfarina lines and front mounted 12-cylinder engine meant this car had the potential to become an instant classic, following in the footsteps of its forebear, the 365 GTB/4 ‘Daytona’, and if you look at the way the prices are steading to go, it’s clear that the potential is being realised. Launched in 1996, and with modern styling cues, a 5.5 litre V12 engine producing around 485bhp and a reported top speed of 199mph, the 550 Maranello was a serious motor car. A less frenetic power delivery, the six speed manual box and excellent weight distribution were all factors in the 550 becoming the perfect European Grand Tourer. Ferrari updated the car to create the 575M.

A variant of the 575 was the 575M SuperAmerica, created to satisfy demand for open-topped V12 motoring and with a rather better roof arrangement than had been on the 550 Barchetta. The 575M Superamerica featured an electrochromic glass panel roof which rotated 180° (both of these attributes being production car firsts) at the rear to lie flat over the boot. The patented Revocromico roof incorporates a carbon fibre structure that is hinged on the single axis with a luggage compartment lid, allowing the access to the latter even with an open roof. With the roof open the rear window, apart for holding the third stop light, also acts as a wind deflector. This roof design was previously used on the 2001-designed Vola by Leonardo Fioravanti. The Superamerica used the higher-output tune of the V-12 engine, F133 G, rated at 533 hp and Ferrari marketed it as the world’s fastest convertible, with a top speed of 199 mph. The GTC handling package was optional. A total of 559 Superamericas were built; this number followed Enzo Ferrari’s philosophy that there should always be one fewer car available than what the market demanded.

The next V12 engined Ferrari was the 599 GTB (internal code F141) a new flagship, replacing the 575M Maranello. Styled by Pininfarina under the direction of Ferrari’s Frank Stephenson, the 599 GTB debuted at the Geneva Motor Show in February 2006. It is named for its total engine displacement (5999 cc), Gran Turismo Berlinetta nature, and the Fiorano Circuit test track used by Ferrari. The Tipo F140 C 5999 cc V12 engine produced a maximum 620 PS (612 hp), making it the most powerful series production Ferrari road car of the time. At the time of its introduction, this was one of the few engines whose output exceeded 100 hp per litre of displacement without any sort of forced-induction mechanism such as supercharging or turbocharging. Its 448 ft·lb of torque was also a record for Ferrari’s GT cars. Most of the modifications to the engine were done to allow it to fit in the Fiorano’s engine bay (the original Enzo version could be taller as it would not block forward vision due to its mid-mounted position). A traditional 6-speed manual transmission as well as Ferrari’s 6-speed called “F1 SuperFast” was offered. The Fiorano also saw the debut of Ferrari’s new traction control system, F1-Trac. The vast majority of the 599 GTB’s were equipped with the semi-automatic gearbox, with just 30 examples produced with a manual gearbox of which 20 were destined for the United States and 10 remained in Europe. The car changed little during its 6 year production, though the range did gain additional versions, with the HGTE model being the first, with a number of chassis and suspension changes aimed at making the car even sharper to drive, and then the more potent 599GTO came in 2010. With 670 bhp, this was the fastest road-going Ferrari ever made. Just 599 were made. The model was superceded by the F12 Berlinetta in 2012.

One of the most popular cars of the weekend was this LaFerrari. Launched at the 2013 Geneva Show, along with the Porsche 918 Spyder and McLaren P1, the LaFerrari has the distinction of being the first mild hybrid from Ferrari, which ensures that as well as providing the highest power output of any Ferrari, fuel consumption can be decreased by up to 40 percent. Owners may not care, but regulators certainly do! LaFerrari’s internal combustion engine is a mid-rear mounted Ferrari F140 65° V12 with a 6262 cc capacity producing 800 PS (789 bhp) @ 9000 rpm and 700 N·m (520 lbf·ft) of torque @ 6,750 rpm, supplemented by a 163 PS (161 bhp) KERS unit (called HY-KERS), which will provide short bursts of extra power. The KERS system adds extra power to the combustion engine’s output level for a total of 963 PS (950 bhp) and a combined torque of 900 N·m (664 lb·ft). Ferrari claims CO2 emissions of 330 g/km. It is connected to a 7-speed dual-clutch transmission and the car is rear-wheel drive. 499 units were built, each costing over $1million.

After a gap of some years, Ferrari added a 4 seater V8 model to the range at the 2008 Paris Motor Show, with the California. According to industry rumours, the California originally started as a concept for a new Maserati, but the resulting expense to produce the car led the Fiat Group to badge it as a Ferrari in order to justify the high cost of purchase; the company denies this, however. The California heralded a number of firsts for Ferrari: the first front engined Ferrari with a V8; te first to feature a 7-speed dual-clutch transmission; the first with a folding metal roof; the first with multi-link rear suspension; and the first with direct petrol injection. Bosch produced the direct injection system. The engine displaces 4,297 cc, and used direct injection. It delivered 453 bhp at 7,750 rpm; its maximum torque produced was 358 lbf·ft at 5,000 rpm. The resulting 106 bhp per litre of engine displacement is one of the highest for a naturally aspirated engine, as other manufacturers have used supercharging or turbocharging to reach similar power levels. Ferrari spent over 1,000 hours in the wind tunnel with a one-third-scale model of the California perfecting its aerodynamics. With the top up, the California has a drag coefficient of Cd=0.32, making it the most aerodynamic Ferrari ever made until the introduction of the Ferrari F12 Berlinetta. Throughout the California’s production, only 3 cars were built with manual transmission, including one order from the UK. On 15 February 2012, Ferrari announced an upgrade, which was lighter and more powerful. Changes include reducing body weight by 30 kg (66 lb), increased power by output of 30 PS and 11 lbf·ft, acceleration from 0–100 km/h (62 mph) time reduced to 3.8 seconds, introduction of Handling Speciale package and elimination of the manual transmission option. The car was released at the 2012 Geneva Motor Show as a 2012 model in Europe. To give the clients a more dynamic driving experience, an optional HS (Handling Speciale) package was developed as part of the update. It can be recognised by a silver coloured grille and ventilation blisters behind the front wheel wells. The HS package includes Delphi MagneRide magnetorheological dampers controlled by an ECU with 50% faster response time running patented Ferrari software, stiffer springs for more precise body control and a steering rack with a 9 per cent quicker steering ratio (2.3 turns lock to lock as opposed to the standard rack’s 2.5). A more substantive update came in 2014, with the launch of the California T, which remains in production. It featured new sheetmetal, a new interior, a revised chassis and a new turbocharged powertrain.

Next up was the 458, of which there were examples of both the closed Coupe and the later Spider model. An all new design, the 458 Italia was first officially unveiled at the 2009 Frankfurt Motor Show. Once more, Ferrari advised that the model incorporated technologies developed from the company’s experience in Formula 1. The body computer system was developed by Magneti Marelli Automotive Lighting. The 458 came with a 4,499 cc V8 engine of the “Ferrari/Maserati” F136 engine family, producing 570 PS ( 562 hp) at 9,000 rpm and 540 N·m (398 lb/ft) at 6,000 rpm with 80% torque available at 3,250 rpm. The engine featured direct fuel injection, a first for Ferrari mid-engine setups in its road cars. The only transmission available was a dual-clutch 7-speed Getrag gearbox, in a different state of tune shared with the Mercedes-Benz SLS AMG. There was no traditional manual option, making this the fourth road-car after the Enzo, Challenge Stradale and 430 Scuderia not to be offered with Ferrari’s classic gated manual. The car’s suspension featured double wishbones at the front and a multi-link setup at the rear, coupled with E-Diff and F1-Trac traction control systems, designed to improve the car’s cornering and longitudinal acceleration by 32% when compared with its predecessors.The brakes included a prefill function whereby the pistons in the calipers move the pads into contact with the discs on lift off to minimise delay in the brakes being applied. This combined with the ABS and standard Carbon Ceramic brakes caused a reduction in stopping distance from 100–0 km/h (62-0 mph) to 32.5 metres. Ferrari’s official 0–100 km/h (62 mph) acceleration time was quoted as 2.9–3.0 seconds with a top speed of 340 km/h (210 mph). In keeping with Ferrari tradition the body was designed by Pininfarina under the leadership of Donato Coco, the Ferrari design director. The interior design of Ferrari 458 Italia was designed by Bertrand Rapatel, a French automobile designer. The car’s exterior styling and features were designed for aerodynamic efficiency, producing a downforce of 140 kg (309 lb) at 200 km/h. In particular, the front grille features deformable winglets that lower at high speeds, in order to offer reduced drag. The car’s interior was designed using input from former Ferrari Formula 1 driver Michael Schumacher; in a layout common to racing cars, the new steering wheel incorporates many controls normally located on the dashboard or on stalks, such as turning signals or high beams. At launch the car was widely praised as being pretty much near perfect in every regard. It did lack a fresh air version, though, but that was addressed with the launch of the 458 Spider at the 2011 Frankfurt Motor Show. This convertible variant of the 458 Italia featured an aluminium retractable hardtop which, according to Ferrari, weighs 25 kilograms (55 lb) less than a soft roof such as the one found on the Ferrari F430 Spider, and can be opened in 14 seconds The engine cover was redesigned to accommodate the retractable roof system. It had the same 0–100 km/h time as the hard-top but a lower top speed of 199 mph. It quickly became the better seller of the two versions.

The Ferrari FF (FF meaning “Ferrari Four”, for four seats and four-wheel drive, the Type F151) is a grand tourer presented by Ferrari on March 1, 2011 at the Geneva Motor Show as a successor to the 612 Scaglietti and is Ferrari’s first production four-wheel drive model. The body style has been described as a shooting-brake, a type of sporting hatchback/estate car with two doors. With a top speed of f 335 km/h (208 mph) and it accelerates from 0 to 100 km/h (62 mph) in 3.7 seconds, Ferrari stated that the FF was the world’s fastest four-seat automobile upon its release to the public. At the time of its reveal, the Ferrari FF had the largest road-going Ferrari engine ever produced: an F140 EB 6,262 cc naturally aspirated direct injected 65° V12, which produced 660 PS (485 kW; 651 hp) at 8,000 rpm and 683 N⋅m (504 lb⋅ft) of torque at 6000 rpm. The FF is equipped with a 7-speed dual-clutch transmission and paddle shift system similar to the California, the 458 Italia, and the Ferrari F12berlinetta. The new four-wheel drive system, engineered and patented by Ferrari, is called 4RM: it is around 50% lighter than a conventional system, and provides power intelligently to each of the four wheels as needed. It functions only when the manettino dial on the steering wheel is in the “comfort” or “snow” positions, leaving the car most often in the traditional rear wheel drive layout. Ferrari’s first use of 4RM was in a prototype created in the end of the 80s, called 408 4RM (abbreviation of “4.0 litre, 8 cylinder, 4 Ruote Motrici”, meaning “four-wheel drive”). This system is based around a second, simple, gearbox (gears and other components built by Carraro Engineering), taking power from the front of the engine. This gearbox (designated “power take off unit”, or PTU) has only two forward gears (2nd and 4th) plus reverse (with gear ratios 6% taller than the corresponding ratios in the main gearbox), so the system is only active in 1st to 4th gears. The connection between this gearbox and each front wheel is via independent Haldex-type clutches, without a differential. Due to the difference in ratios “the clutches continually slip” and only transmit, at most, 20% of the engine’s torque. A detailed description of the system (based on a conversation with Roberto Fedeli, Ferrari’s technical director) has been published. The FF shares the design language of contemporary Ferraris, including the pulled-back headlights of the 458 Italia, and the twin circular taillights seen on the 458 as well as the 599 GTB Fiorano. Designed under the direction of Lowie Vermeersch, former Design Director at Pininfarina, and Flavio Manzoni, Ferrari’s Styling Centre, work on the shooting brake concept initially started following the creation of the Sintesi show car of 2007. Distinctive styling elements include a large egg-crate grille, defined side skirts, and four exhaust tips. The shooting brake configuration is a departure from the conventional wedge shape of modern Ferraris, and the FF has been likened to the similarly-shaped 1962 Ferrari 250 GT SWB Drogo race car. The combination of hatchback-like shooting-brake design and collapsible rear seats gives the Ferrari FF a boot capacity of between 16 and 28 cu ft. Luxury is the main element of the interior and the use of Leather is incorporated throughout, just like the predecessors of the FF. Creature comforts like premium air conditioning, GPS navigation system, carpeting and sound system are also used. An updated version. called the GTC4 Lusso was launched in 2016 by which 2291 examples had been built.

The latest of the V8 line is the 488 GTB, and one of there was a Spider version of this car here. Launched at the 2015 Geneva Show, the 488GTB followed the lead set by the California T in bringing turbocharging into a modern-day, mid-engined V8 Ferrari supercar for the first time. The engine is completely new when compared with its V8 stablemate, not only in components but also in feel and character. It is a twin-turbocharged 3902cc unit whilst that in the California T is 3855cc. In the 488 GTB, it produces 660bhp at 8000rpm and 560lb ft at 3000rpm. Both outputs are significant increases over the normally aspirated 4.5-litre V8 used in the 562 bhp 458 Italia and 597 bhp 458 Speciale, and also greater than the car’s biggest rival, the McLaren 650S. The torque figure of the 488 GTB is such that it also exceeds the 509lb ft at 6000rpm of the normally aspirated V12 used in the range-topping Ferrari F12 Berlinetta. The mighty new engine in the 488 GTB drives the rear wheels through a revised seven-speed dual-clutch automatic gearbox derived from the 458. It features a new ‘Variable Torque Management’ system which, Ferrari says, “unleashes the engine’s massive torque smoothly and powerfully right across the rev range”. The gear ratios are also tuned to “deliver incredibly progressive acceleration when the driver floors the throttle”. The 488 GTB can crack 0-62mph in just 3.0sec, 0-124mph in 8.4sec and reach a top speed of 205mph. Its 0-62mph and 0-124mph times match the McLaren 650S’s, but the Woking car’s top speed is slightly higher at 207mph. The engine also accounts for the ‘488’ element of the car’s name, because each of the engine’s eight cylinders is 488cc in capacity when rounded up. The GTB suffix, standing for Gran Turismo Berlinetta, is a hallmark of previous mid-engined V8 Ferraris such as the 308 GTB. Not only is the new turbo engine more potent than the 4.5-litre V8 from the 458 Italia, but it is also more economical. Combined fuel economy is rated at 24.8mpg, compared with 21.2mpg in the 458 Italia, and CO2 emissions are 260g/km – a 47g/km improvement. Ferrari’s HELE engine stop-start system features on the 488 GTB. Developments on the dynamic side include a second generation of the Side Slip Angle Control system, called SSC2. This allows the driver to oversteer without intruding, unless it detects a loss of control. The SSC2 now controls the active dampers, in addition to the F1-Trac traction control system and E-Diff electronic differential. Ferrari says the result is “more precise and less invasive, providing greater longitudinal acceleration out of corners” and flatter, more stable behaviour during “complex manoeuvres”. Learnings from the Ferrari XX programme have also been incorporated into the 488 GTB, something that Ferrari says allows all drivers and not just professionals, to make the most of its electronic and vehicle control systems. It also claims the 488 GTB is “the most responsive production model there is”, with responses comparable to a track car. The 488 GTB has lapped Ferrari’s Fiorano test track in 1min 23sec – two seconds faster than the 458 Italia, and half a second quicker than the 458 Speciale. The dimensions of the 488 GTB – it is 4568mm in length, 1952mm in width and 1213mm in height – closely match the 458 Italia from which it has evolved. Its dry weight is 1370kg when equipped with lightweight options – 40kg more than the McLaren 650S. The new look, styled at the Ferrari Styling Centre, features several new aerodynamic features that improve downforce and reduce drag. Most notable is the addition of active aerodynamics at the rear through a ‘blown’ rear spoiler, where air is channelled from the base of the glass engine cover under the spoiler. This contributes to the 50% increase in downforce over the 458 Italia. Also new is a double front spoiler, an aerodynamic underbody, a large air intake at the front that references the 308 GTB, a diffuser with active flaps, new positioning for the exhaust flaps and new-look lights. The interior has been redesigned to be made more usable, including new switchgear, air vents and instrument panel. The multi-function steering wheel remains, while the infotainment system gets a new interface and graphics. The Spider followed the closed coupe model six months later, and supplies of that car are now reaching the UK. It is expected that this will be bigger seller of the car, as was the case with the 458 models.

FIAT

Star in the Paddock was this fabulous Dino Spider, the proud owner of which is Kevin McCloud, of Grand Designs fame. The Fiat Dino Coupe and Spider came about because of Enzo Ferrari’s need to homologate a V6 engine for Formula 2 racing cars. In 1965 the Commission Sportive Internationale de la FIA had drawn up new rules, to be enacted for the 1967 season. F2 engines were required to have no more than six cylinders, and to be derived from a production engine, from a road car homologated in the GT class and produced in at least 500 examples within 12 months. Since a small manufacturer like Ferrari did not possess the production capacity to reach such quotas, an agreement was signed with Fiat and made public on 1 March 1965: Fiat would produce the 500 engines needed for the homologation, to be installed in a yet unspecified GT car. The Fiat Dino was introduced as a 2-seater Spider at the Turin Motor Show in October 1966; a 2+2 Coupé version, built on a 270 mm (10.6 in) longer wheelbase, bowed a few months later at the Geneva Motor Show in March 1967. The two bodies showed very different lines, as they had been designed and were manufactured for Fiat by two different coachbuilders: the Spider by Pininfarina, and the Coupé by Bertone—where it had been sketched out by Giorgetto Giugiaro. Curiously the Spider type approval identified it as a 2+1 seater. The Spider had poorer interior trim than the Coupé, below par for its class: the dashboard was covered in vinyl, the metal-spoke steering wheel had a plastic rim, and the interior switchgear was derived from cheaper Fiat models. After a few months this issue was addressed, and Spiders produced after February 1967 had a wood-rimmed steering wheel as well as a wood trim on the dashboard like the sister Coupé car had since the beginning. Option lists for both models were limited to radio, metallic paint, leather upholstery, and for the Spider a vinyl-covered hardtop with roll-bar style stainless steel trim. The car was offered with an all-aluminium DOHC 2.0 litre V6, coupled to a 5-speed manual transmission. The same 2.0-litre engine was used in mid-engined, Ferrari-built Dino 206 GT, which was introduced in pre-production form at the 1967 Turin Motor Show and went on sale in 1968. Fiat quoted 160 PS (158 hp) for the Fiat Dino, while in 1967 Ferrari—presenting the first prototype of the Dino 206 GT—claimed 180 hp despite both engines were made by Fiat workers in Turin on the same production line, without any discrimination as to their destination. Jean-Pierre Gabriel in “Les Ferraris de Turin” notes that, “La declaration de Ferrari ne reposait sur aucun fondament technique”—Ferrari’s statement had no technical basis. The real reason for this difference was a mistake in between quotes made in SAE and BHP power output. In 1969, both Ferrari and Fiat introduced new 2.4-litre Dino models. The Fiat Dino 2400 premiered in October 1969 at the Turin Motor show; besides the larger engine, another notable improvements was independent rear suspension. The V6 now put out 180 PS, and used a cast iron instead of the previous light alloy engine block; the same engine was installed on the Dino 246 GT, Ferrari’s evolution of the 206. Whereas the original Dino was equipped with a rigid axle suspended by leaf springs and 4 shock absorbers, 2.4-litre cars used a coil-sprung independent rear suspension with 2 shock absorbers derived from the Fiat 130. Rather than engine power and absolute speed, the most important consequence of the larger displacement was a marked increase in torque, available at lower engine speeds; the Dino 2400 had much better pickup, and it was found more usable, even in city traffic. Other modifications went on to improve the car’s drivability and safety: larger diameter clutch, new dogleg ZF gearbox with revised gear ratios, wider section 205/70VR -14 tyres, and up-sized brake discs and callipers. Cosmetic changes were comparatively minor. Both models were now badged “Dino 2400”. On the coupé the previous silver honeycomb grille with the round Fiat logo on its centre had been replaced by a new black grille and a bonnet badge. A host of details were changed from chrome to matte black, namely part of the wheels, the vents on the front wings and the cabin ventilation outlets—the latter moved from next the side windows to the rear window. At the rear there were different tail lights. The spider also sported a new grille with two horizontal chrome bars, 5-bolts instead of knock-off wheels, as well as a new bumpers with rubber strips. Inside only the coupé received an entirely redesigned dashboard and new cloth seats, with optional leather seat upholstery; front seat headrests were standard on the coupé and optional on the spider. Spider and coupé bodies were produced respectively by Pininfarina and Bertone. 2.0-litre and early 2.4-litre cars were assembled by Fiat in Rivalta di Torino. Starting from December 1969 the Fiat Dino was assembled in Maranello on Ferrari’s production line, alongside the 246 GT. Between 1966 and 1969 there were 3,670 2.0-litre coupés and 1,163 2.0-litre spiders made; with only 420 built, the 2400 Spider is the rarest of the Fiat’s Dinos. Of the total 7,803 Fiat Dino produced, 74% were the popular coupés and only 26% were spiders. Spiders are worth big money now – good ones are over £100k – which means that the car is way beyond my means, but every time I see one, I go weak at the knees. To my eyes, it is one of the best looking cars ever made.

There were some more Fiat models in the Orchard. Oldest of these, present on the Sunday, was this rather splendid 509A, dating from 1926. The Fiat 509 was produced between 1925 and 1929 as a replacement for the 501. Approximately 90,000 of the model were sold. In 1926 the car was upgraded to the 509A. For 1928, the 509 was offered with standard insurance, also. In addition to the standard car, there were 509S and 509SM sports models, as well as taxi and commercial versions. It was replaced by the 508.

This is a rare surviving original generation Uno 45. Fiat launched the Uno, the Tipo 146, in January 1983, just one day before the equally iconic Peugeot 205, to replace the elderly Fiat 127. Both were huge sellers, and deservedly so too, but it was the Fiat that sold in greater quantity, with over 8 million examples produced. It was Italy’s best selling car, and by some margin, throughout its 10 year production life, though you might find that hard to believe now, as they were are not a common sight even in Italy. The 127 had revolutionised the supermini market on its launch more than 10 years earlier, and the Uno followed the same format, but brought uptodate. Designed by Giorgetto Giugiaro’s ItalDesign company, its tall, square body utilising a Kamm tail achieved a low drag coefficient of 0.34 won it much praise for interior space and fuel economy as well as its excellent ride and handling, and was widely regarded as the most innovative small car in Europe at the time of its launch. It incorporated many packaging lessons learnt from Giugiaro’s 1978 Lancia Megagamma concept car (the first modern people carrier / MPV / mini-van) but miniaturised. Its tall car / high seating packaging is imitated by every small car today. It reversed the trend for lower and lower built cars. It showed that not just low sleek cars could be aerodynamic, but small, roomy, boxy well packaged cars could be too. There was a lot of activity in the supermini class in 1983, as the Uno hit the UK market a couple of months before the Peugeot 205 – another small European car which became the benchmark for this market sector, enjoying a long production life and strong sales, and just after General Motors launched its new Opel Corsa/Vauxhall Nova. Within a few months of its launch it had gained two new major competitors in the shape of the restyled Ford Fiesta and Nissan’s new Micra. UK sales began in June 1983, and more than 20,000 were sold in its first full year and peaking at more than 40,000 sales in 1988, making it one of the UK’s most popular imported cars during the 1980s. In December 1983, it was European Car of the Year for 1984, finishing narrowly ahead of the Peugeot 205. Initially, the Uno was offered with the 0.9 litre (903 cc) 100-series OHV, 1.1 litre (1116 cc) and 1.3 litre (1301 cc) 128-series SOHC petrol engines and transmissions carried over from the 127. The Uno’s badging was not by the commonly used measurement of engine size but by metric horsepower: 45, 55, 60, 70, or 75. The Uno was available as either a three- or five-door hatchback. It also featured ergonomic “pod” switchgear clusters each side of the main instrument binnacle, (that could be operated without removing the driver’s hands from the steering wheel), although indicators remained on a stalk; an unusual arrangement similar to that used by Citroën. The Uno had MacPherson strut independent front suspension and twist-beam rear suspension with telescopic dampers and coil springs. From 1985, the 1.0 litre (999 cc) SOHC Fully Integrated Robotised Engine (FIRE) powerplant was offered, replacing the 0.9 litre unit. This was a lighter engine, built with fewer parts, and gave improved performance and economy. The most luxurious version, the single-point injected 75 SX i.e., had remote door locks, integrated front foglamps, and the oval exhaust tip also used on the Turbo. In April 1985 the hot hatch version of the first series Uno – the Uno Turbo i.e. – was launched as a three-door only derivative. It competed with the likes of the Ford Fiesta XR2, MG Metro Turbo and Peugeot 205 GTI. The Uno was replaced by the Punto in late 1993, although production for some markets continued for some time after that.

The first 124 Spider made its debut at the Turin Show in 1966, and continued in production until the mid 1980s, bearing the badge of its designer, Pininfarina, in later years when it remained popular in the American market. Early cars had 1400 and 1600cc engines, and these were gradually enlarged first 1800cc and then 2 litre, with fuel injection being added for more power and emissions compliance during the 1970s. Fiat spotted the potential of the car for more than just boulevard cruising, though, so in November 1972 they announced the Fiat Abarth 124 Rally, an overtly sporting version. Its main purpose was to receive FIA homologation in the special grand touring cars (Group 4) racing class, and replace the 1.6-litre Fiat Sport Spider rally car which had been campaigned. At the time, the 124 had already won the 1972 European Rally Championship at the hands of Raffaele Pinto and Gino Macaluso. The 124 Rally was added to the Sport Spider range, which included the 1600 and 1800 models; the first 500 examples produced were earmarked for the domestic Italian market. Amongst the most notable modifications over the standard spider there were independent rear suspension, engine upgrades, lightweight body panels, and a fixed hard top. In place of the usual rear solid axle, there was a Chapman-type McPherson strut independent suspension, supplemented by a longitudinal torque arm. At the front a radius rod on each side was added to the standard double wishbones. The Abarth-tuned type 132 AC 4.000 1.8-litre, twin-cam engine was brought from the standard 118 to 128 PS DIN by replacing the standard twin-choke carburettor with double vertical twin-choke Weber 44 IDF ones, and by fitting an Abarth exhaust with a dual exit exhaust The 9.8:1 compression ratio was left unchanged. The transmission was the all-synchronised 5-speed optional on the other Sport Spider models, and brakes were discs on all four corners. Despite the 20 kg (44 lb) 4-point roll bar fitted, kerb weight was 938 kg (2,068 lb), roughly 25 kg (55 lb) less than the regular 1.8-litre Sport Spider. The bonnet, boot lid and the fixed hard top were fibreglass, painted matt black, the rear window was perspex and the doors aluminium. Front and rear bumpers were deleted and replaced by simple rubber bumperettes. A single matte black wing mirror was fitted. Matte black wheel arch extensions housed 185/70 VR 13 Pirelli CN 36 tyres on 5.5 J × 13″ 4-spoke alloy wheels. Inside, the centre console, rear occasional seats, and glovebox lid were eliminated; while new features were anodised aluminium dashboard trim, a small three-spoke leather-covered Abarth steering wheel, and Recaro corduroy-and-leather bucket seats as an extra-cost option. The car carried Fiat badging front and rear, Abarth badges and “Fiat Abarth” scripts on the front wings, and Abarth wheel centre caps. Only three paint colours were available: Corsa red, white, and light blue. This an early model.

After the 124 Spider ended production, there was a wait of over 10 years before Fiat would produce another open-topped car. Developed between 1990 and 1994 under the project name Tipo B Spider 176, the Barchetta, a small open topped rival to the Mazda MX5 was designed by Andreas Zapatinas and Alessandro Cavazza under the supervision of Peter Barrett Davis and other car designers at the Fiat Centro Stile, and prototyping was carried out by Stola. Production began in February 1995 and lasted until June 2005, with a brief pause due to the bankruptcy of coachbuilder Maggiora. The Barchetta was based on the chassis of the Mark 1 Fiat Punto. The Barchetta has 1,747 cc DOHC petrol engine fitted with variable camshaft timing, used for the first time in a Fiat production car, after being patented in 1970. The engine has 132 PS, and with a weight of 1056 kg (2328 lb) without air conditioning can accelerate to 100 km/h in 8.9 seconds and on to a top speed of 200 km/h (124 mph). It came in various trim levels which offered different features, for example, diamond cross stitch – patterned red leather instead of the standard black leather or fabric seats, alloy wheels instead of steel wheels, or fog-lights as an option. Arguably one of the biggest external cosmetic changes was made by the addition of the third brake light, first introduced by Fiat on the Lido and Riviera in 2000, and on sub models thereafter. The bodies were welded at ILCAS in Sparone Canavese, and final assembly was done in Chivasso by the coachbuilder Maggiora. After Maggiora’s bankruptcy in 2002, Fiat relocated production of the Barchetta to its Mirafiori plant and resumed production two years later. The most notable changes were the revised front spoiler and rear bumper. Production of the car eventually stopped in June 2005, with around 57,700 cars having been built. Production of the Barchetta was limited to LHD cars only, even though the car was marketed and sold in two RHD markets, the United Kingdom and Japan.

Introduced at the 1980 Geneva Show, the Panda (Tipo 141) was designed as a cheap, easy to use and maintain, no-frills utility vehicle, positioned in Fiat’s range between the 126 and 127. It can be seen as a then-modern approach to the same niche which the Citroën 2CV and Renault 4 were designed to serve. The first Panda was designed by Giorgetto Giugiaro of Italdesign. In an interview to Turinese newspaper La Stampa published in February 1980, Giugiaro likened the Panda to a pair of jeans, because of its practicality and simplicity, and he has often said that this is his favourite of all the cars he designed. Mechanically the first Pandas borrowed heavily from the Fiat parts bin. Engines and transmissions came from the Fiat 127 and, in certain territories, the air-cooled 652 cc two-cylinder powerplant from the Fiat 126. The plan for a mechanically simple car was also evident in the rear suspension, which used a solid axle suspended on leaf springs. Later versions of the car added various mechanical improvements but this spirit of robust simplicity was adhered to throughout the life of the model. Many design features reflect the Panda’s utilitarian practicality. Examples include a seven-position adjustable rear seat which could be folded flat to make an improvised bed, or folded into a V shape to support awkward loads, or easily and quickly removed altogether to increase the overall load space. The first Pandas also featured removable, washable seat covers, door trims and dashboard cover, and all the glass panels were flat making them cheap to produce, easy to replace and interchangeable between left and right door. Much like its earlier French counterparts the Panda could be specified with a two piece roll forward canvas roof. At launch two models were available: the Panda 30, powered by a longitudinally-mounted air cooled 652 cc straight-two-cylinder engine derived from the 126, or the Panda 45, with a transversely-mounted water cooled 903 cc four-cylinder from the 127. As a consequence of the different drivetrain layout the 45 had the radiator grille to the right side, the 30 to the left. In September 1982 Fiat added another engine to the line-up: the Panda 34 used an 843 cc water-cooled unit, derived from that in the 850. It was originally reserved for export to France, Belgium, Germany, and the Netherlands. Fiat launched the Panda 45 Super at the Paris Motor Show later in 1982, with previous specification models continuing as the “Comfort” trim. The Super offered numerous improvements, most significant being the availability of a five-speed gearbox as well as improved trim. There were minor styling changes to the Super including the introduction of Fiat’s new black plastic “corporate” grille with five diagonal silver bars. The earlier grille design (metal with slots on the left for ventilation) continued on the Comfort models until the next major revision of the line-up. A 30 Super was added to the range in February 1983, offering the Super trim combined with the smaller engine. The Panda 4×4 was launched in June 1983, it was powered by a 965 cc engine with 48 bhp derived from that in the Autobianchi A112. Known simply as the Panda 4×4, this model was the first small, transverse-engined production car to have a 4WD system. The system itself was manually selectable, with an ultra-low first gear. Under normal (on-road) conditions starting was from second, with the fifth gear having the same ratio as fourth in the normal Panda. Austrian company Steyr-Puch supplied the entire drivetrain (clutch, gearbox, power take-off, three-piece propshaft, rear live axle including differential and brakes) to the plant at Termini Imerese where it was fitted to the reinforced bodyshell. Minor revisions in November 1984 saw the range renamed “L”, “CL”, and “S”. Specifications and detailing were modified across the range including the adoption of the Fiat corporate grille across all versions. Mechanically, however, the cars remained largely unchanged. In January 1986, the Panda received a substantial overhaul and a series of significant mechanical improvements. Most of these changes resulted in the majority of parts being changed and redesigned, making many of the pre-facelift and post-facelift Panda parts incompatible between models. The 652 cc air-cooled 2-cyl engine was replaced by a 769 cc (34 bhp) water-cooled 4-cyl unit, and the 903/965cc by a 999cc (45 bhp, 50 bhp in the 4×4) unit. Both new engines were from Fiat’s new FIRE family of 4-cylinder water-cooled powerplants with a single overhead camshaft. The rear suspension was also upgraded, the solid axle with leaf springs being replaced by a more modern dependent suspension system using a non-straight rigid axle (known as the ‘Omega’ axle) with a central mounting and coil springs (first seen on the Lancia Y10, which used the same platform). The 4×4 retained the old leaf sprung live axle set-up, presumably to avoid having to redesign the entire 4WD system. Improvements were also made to the interior and the structure. The body was strengthened and fully galvanised on later models, virtually eliminating the earlier car’s strong tendency to rust. The rear panel design was also revamped to include flared arches that mirrored those of the front wings, replacing the un-sculpted style seen on earlier models, and the doors received a slight redesign with the earlier car’s quarter light windows being removed and replaced by a full width roll-down window. The bottom seam of the facelifted model’s doors unfortunately retained much the earlier car’s susceptibility to rust. In ascending order of specification and cost, the revised range was as follows: 750L, 750CL, 750S, 1000CL, 1000S, 4×4. April 1986 saw the introduction of a 1,301 cc diesel engine with 37 bhp (a detuned 127/Uno unit). Fitted as standard with a five-speed gearbox it was only available in the basic “L” trim. A van variant of the Panda was also introduced, with both petrol and diesel engines. The van was basically a standard Panda without rear seats. The rear windows were replaced with plastic blanking panels and a small (always black) steel extension with side hinged doors was fitted instead of the usual hatchback tailgate. Neither the van nor the diesel were available in right hand drive markets. In 1987, a new entry-level model badged “Panda Young” was added to the range. This was essentially an L spec car with a 769 cc OHV engine based on the old 903 cc push-rod FIAT 100 engine and producing the same 34 bhp as the more sophisticated 769 cc FIRE unit. The Panda 4×4 Sisley limited edition was also released; this was based on the standard 4×4, but came with metallic paint, inclinometer, white painted wheels, roof rack, headlamp washers, bonnet scoop, “Sisley” badging and trim. Although originally limited to the production of only 500, in 1989 the Sisley model became a permanent model due to its popularity. In 1991, a facelift was introduced. This entailed a new front grille with a smaller five-bar corporate badge, plus revisions to trim and specifications across the range. New arrivals included the ‘Selecta’, which had a continuously variable transmission with an electromagnetic clutch. This advanced transmission was available either with the normal 999 cc FIRE engine (revised with single-point fuel injection and a catalytic converter) or an all new 1108 cc FIRE unit, fitted with electronic fuel injection and a three-way catalytic converter and producing 51 bhp. The new CLX trim also featured a five-speed gearbox as standard. The range now comprised the 750 Young (769 cc ohv), 750 and 750 CLX (both 769 cc FIRE sohc), 900 Dance (903 cc ohv), 1000 Shopping, CLX, CL Selecta and S (all with 999 cc sohc, available with or without SPI and catalytic converter depending on the market), 1100 CL Selecta (1108 cc sohc with SPI and cat) and the 4×4 Trekking (999 cc, again available with and without a cat depending on the market). The Elettra concluded the range. In 1992, the 1108 cc engine, complete with SPI and catalytic converter, replaced the 999 cc unit in the 4×4 (with 50 bhp) and also in 1992 an 899 cc (with injection and catalyst) became available, in the ‘Cafe’ special edition. This was a reduced capacity 903 cc unit, designed to meet tax requirements in some markets. From 1996 onwards, the Panda was gradually phased out across Europe, due to tightening emissions and safety legislation. The car remained in production in Italy until May 2003. Its total production run of 23 years makes the Panda one of Europe’s longest-lived small cars. Over 4,5 million were built and the car is still popular in Italy.

LAMBORGHINI

Oldest of the Lamborghini cars here, was this Miura, known as the “Twiggy car” as it was owned by her manger back in the day. The Miura, produced between 1966 and 1973, is widely considered to have instigated the trend of high performance, two-seater, mid-engined sports cars. When released, it was the fastest production road car available. The Miura was originally conceived by Lamborghini’s engineering team, Gian Paolo Dallara, Paolo Stanzani, and Bob Wallace who in 1965 put their own time into developing a prototype car known as the P400. The engineers envisioned a road car with racing pedigree – one which could win on the track and be driven on the road by enthusiasts. The three men worked on its design at night, hoping to convince Lamborghini such a vehicle would neither be too expensive nor distract from the company’s focus. When finally brought aboard, Lamborghini gave his engineers a free hand in the belief the P400 was a potentially valuable marketing tool, if nothing more. The car featured a transversely-mounted mid-engine layout, a departure from previous Lamborghini cars. The V12 was also unusual in that it was effectively merged with the transmission and differential, reflecting a lack of space in the tightly-wrapped design. The rolling chassis was displayed at the Turin Salon in 1965. Impressed showgoers placed orders for the car despite the lack of a body to go over the chassis. Bertone was placed in charge of styling the prototype, which was finished just days before its debut at the 1966 Geneva motor show. Curiously, none of the engineers had found time to check if the engine would fit inside its compartment. Committed to showing the car, they decided to fill the engine bay with ballast and keep the car locked throughout the show, as they had three years earlier for the début of the 350GTV. Sales head Sgarzi was forced to turn away members of the motoring press who wanted to see the P400’s power plant. Despite this setback, the car was the highlight of the show, immediately boosting stylist Marcello Gandini’s reputation. The favourable reaction at Geneva meant the P400 was to go into production by the following year. The name “Miura”, a famous type of fighting bull, was chosen, and featured in the company’s newly created badge. The car gained the worldwide attention of automotive enthusiasts when it was chosen for the opening sequence of the original 1969 version of The Italian Job. In press interviews of the time company founder Ferruccio Lamborghini was reticent about his precise birth date, but stressed that he was born under the star sign Taurus the bull. Early Miuras, known as P400s (for Posteriore 4 litri), were powered by a version of the 3.9 litre Lamborghini V12 engine used in the 400GT at the time, only mounted transversely and producing 350 hp. Exactly 275 P400 were produced between 1966 and 1969 – a success for Lamborghini despite its then-steep price. Taking a cue from the Mini, Lamborghini formed the engine and gearbox in one casting. Its shared lubrication continued until the last 96 SVs, when the case was split to allow the correct oils to be used for each element. An unconfirmed claim holds the first 125 Miuras were built of 0.9 mm steel and are therefore lighter than later cars. All cars had steel frames and doors, with aluminium front and rear skinned body sections. When leaving the factory they were originally fitted with Pirelli Cinturato 205VR15 tyres (CN72). The P400S Miura, also known as the Miura S, made its introduction at the Turin Motorshow in November 1968, where the original chassis had been introduced three years earlier. It was slightly revised from the P400, with the addition of power windows, bright chrome trim around external windows and headlights, new overhead inline console with new rocker switches, engine intake manifolds made 2 mm larger, different camshaft profiles, and notched trunk end panels (allowing for slightly more luggage space). Engine changes were reportedly good for an additional 20 hp. Other revisions were limited to creature comforts, such as a locking glovebox lid, a reversed position of the cigarette lighter and windshield wiper switch, and single release handles for front and rear body sections. Other interior improvements included the addition of power windows and optional air conditioning, available for US$800. About 338 P400S Miura were produced between December 1968 and March 1971. One S #4407 was owned by Frank Sinatra. Miles Davis also owned one, which he crashed in October 1972 under the influence of cocaine, breaking both ankles. The last and most famous Miura, the P400SV or Miura SV featured different cam timing and altered carburettors. These gave the engine an additional 15 hp to a total of 380 hp. The last 96 SV engines had a split sump. The gearbox now had its lubrication system separate from the engine, which allowed the use of the appropriate types of oil for the gearbox and the engine. This also alleviated concerns that metal shavings from the gearbox could travel into the engine with disastrous and expensive results and made the application of an optional LSD far easier. The SV can be distinguished from its predecessors from its lack of “eyelashes” around the headlamps, wider rear wings to accommodate the new 9-inch-wide rear wheels and Pirelli Cinturato tyres, and different taillights. 150 SVs were produced.

Which small boy (and perhaps car loving girl) did not lust after a Countach back in the 1970s and 1980s. A dramatic looking car, this was the stuff of dreams that you would only ever see at the London or NEC Motor Shows. Countach first made an appearance, as a concept in 1971, but it was 1973 before the production car made its debut, and despite unfortunate timing with fuel shortages and a recession, and a number of financial problems for its maker, the car sold well throughout its production life. The Countach entered production as the LP400 with a 3929 cc engine delivering 370 hp. The first production Countach was delivered to an Australian in 1974. Externally, little had altered from the final form of the prototype except at the rear, where conventional lights replaced the futuristic light clusters of the prototype. The styling had become rather more aggressive than Gandini’s original conception, with the required large air scoops and vents to keep the car from overheating, but the overall shape was still very sleek. The original LP400 rode on the quite narrow tyres of the time, but their narrowness and the slick styling meant that this version had the lowest drag coefficient of any Countach model. The emblems at the rear simply read “Lamborghini” and “Countach”, with no engine displacement or valve arrangement markings as is found on later cars. By the end of 1977, the company had produced 158 Countach LP400s. In 1978, a new LP400 S model was introduced. Though the engine was slightly downgraded from the LP400 model (350 bhp), the most radical changes were in the exterior, where the tyres were replaced with 345/35R15 Pirelli P7 tyres; the widest tyres available on a production car at the time, and fibreglass wheel arch extensions were added, giving the car the fundamental look it kept until the end of its production run. An optional V-shaped spoiler was available over the rear deck, which, while improving high-speed stability, reduced the top speed by at least 16 km/h (10 mph). Most owners ordered the wing. The LP400 S handling was improved by the wider tires, which made the car more stable in cornering. Aesthetically, some prefer the slick lines of the original, while others prefer the more aggressive lines of the later models, beginning with the LP400 S. The standard emblems (“Lamborghini” and “Countach”) were kept at the rear, but an angular “S” emblem was added after the “Countach” on the right side. 1982 saw another improvement, this time giving a bigger, more powerful 4754 cc engine. The bodywork was unaltered, however the interior was given a refresh. This version of the car is sometimes called the 5000 S, which may cause confusion with the later 5000 QV. 321 of these cars were built. Two prototypes of the 1984 Countach Turbo S were built by Lamborghini, of which one is known to exist. The Turbo S weighed 1,515 kg (3,340 lb), while its 4.8 litre twin-turbo V12 had a claimed maximum power output of 758 PS and a torque output of 876 N·m (646 lb·ft), giving the car an acceleration of 0–100 km/h (0–62 mph) in 3.7 seconds and a top speed of 335 km/h (208 mph). A turbo adjuster, located beneath the steering wheel, could be used to adjust the boost pressure from 0.7 bar to 1.5 bar at which the engine performed its maximum power output. The Turbo S has 15″ wheels with 255/45 tyres on the front and 345/35 on the rear. In 1985 the engine design evolved again, as it was bored and stroked to 5167 cc and given four valves per cylinder—quattrovalvole in Italian, hence the model’s name, Countach 5000 Quattrovalvole or 5000 QV in short. The carburettors were moved from the sides to the top of the engine for better breathing—unfortunately this created a hump on the engine deck, reducing the already poor rear visibility to almost nothing. Some body panels were also replaced by Kevlar. In later versions of the engine, the carburettors were replaced with fuel injection. Although this change was the most notable on the exterior, the most prominent change under the engine cover was the introduction of fuel injection, with the Bosch K-Jetronic fuel injection, providing 414 bhp, rather than the six Weber carburettors providing 455 bhp. As for other markets, 1987 and 1988 model Quattrovalvoles received straked sideskirts. 610 cars were built. There were a couple of Countach models here over the weekend.

The Gallardo was launched in 2003, and stayed in production over 10 years, In excess of 10,000 were made, making it by some margin the most popular Lamborghini yet made. During the long life, lots of different variants were produced with a mixture of all wheel drive and rear wheel power only, open topped bodies, and lightened Superleggera models. Seen here was a Gallardo Spyder. The convertible variant of the Gallardo, called the Gallardo Spyder, was unveiled at the Los Angeles Auto Show in January 2006. It was considered by the company to be an entirely new model, with the engine having a power output of 520 PS and a low-ratio six-speed manual transmission. The Spyder has a retractable soft-top. It evolved in parallel with the fixed roof model, with a number of different versions being produced before the car was deleted in 2014, replaced by the Huracan.

The Aventador has been a huge success for Lamborghini. It was first seen at the 2011 Geneva Show, with the full name of Aventador LP700-4 Coupe, the numbers denoting the output of 700 bhp from the all-new V12 engine and the 4 meaning four wheel drive, something which has featured on every Aventador since. The launch price was £250,000 but even so within a month, Lamborghini had a year’s worth of orders, and within a year, 1000 had been built. In November 2012 a Roadster version arrived, which was very similar to the Coupe, but with a lift-out roof panel. A suite of mechanical changes came at this point, with a cylinder deactiviation technology helping to improve fuel consumption and cut emissions. To mark half a century of car production, in April 2013, the LP720-4 50th Anniversary was launched, with 100 units available. As well as the extra 20 bhp, these had a mildly redesigned nose and tail, special paintwork and unique interior trim. A Roadster version followed in December 2014, the LP 700-4 Pirelli Edition. This did not have the extra power, but did feature two tone paint, unique wheels and a transparent engine cover, with the engine bay finished in carbon fibre. Lamborghini turned up the wick in march 2015 with the LP750-4 SuperVeloce, or SV for short, which featured and extra 50 bhp and a 50 kg weight reduction largely thanks to the use of more carbon fibre. A Roadster version followed a few months later. At the start of 2017, the entry level model was upgraded, becoming the Aventador S, initially as a Coupe, but the Roadster followed later in the year. This had a power boost to 740 bhp, improved aerodynamics, and a revised suspension, as well as the introduction of four-wheel steering and a new TFT dash. In 2018 the 8000th model was produced and just a month after announcing this, the ultimate model appeared, the Aventador SVJ. This boasted 770 bhp and further aerodynamic aids. Production of this version was limited to 900 units. For those who wanted something even more exclusive there were 63 examples of the SVJ 63 edition to mark the formation of the company in 1963.

LANCIA

Oldest of the many Lancia models here was a Lambda, an innovative car which was first shown in 1922. This particular car, shown on the Christoph Grohe stand, dates from 1923. Built in 9 series over a 10 year period, the Lambda pioneered a number of technologies that soon became commonplace in our cars. For example, it was the first car to feature a load-bearing monocoque-type body, (but without a stressed roof) and it also pioneered the use of an independent suspension (the front sliding pillar with coil springs). Vincenzo Lancia even invented a shock absorber for the car and it had excellent four wheel brakes. The narrow angle V4 engine which powered is not something which was widely copied. Approximately 11,200 Lambdas were produced. Most of them had the open Torpedo style body, but some of the last Series 8 and 9 cars had Weyman saloon bodies.

Next oldest Lancia was this Aprilia. Launched in 1937, the Aprilia was one of the first cars to be designed using a wind tunnel. This was in collaboration with Battista Farina and Politecnico di Torino and allowed the car to achieve a record low drag coefficient of 0.47. This was the last of Vincenzo Lancia’s designs, with the car entering production in the very month in which he died. The first series (model. 238) of which 10,354 units were built between 1937–39 featured a 1,352 cc V4 motor providing 47 bhp. The second series (model. 438) of which 9,728 were made, was first seen in 1939 and production of which continued after the war, had its engine capacity increased to 1,486 cc which provided 48 bhp. A Lusso model of this second series was also offered as well as a lungo (lengthened) version. 706 of these were made between 1946 and 1949, making a grand total of 20,082 cars, with 7,554 additional chassis for coach built bodies, produced in Turin along with about 700 in France. With the Aprilia, Lancia followed their tradition of offering cars with the steering wheel on the right even in markets seen by other manufacturers as left hand drive markets. Outside the UK and Sweden customers increasingly picked the optional left hand drive versions, however.

The Appia was a small car that was made between 1953 and 1963, in three distinct Series. First series Appias were only offered in factory body styles, but this changed with the second and third series Appias, which were also built as a platform chassis intended for coachbuilt bodies. Towards the end of 1955 a first batch of 14 chassis based on the brand new second series Appia were built and handed over to some of the most prominent coachbuilders of the time: Allemano, Boano, Ghia Aigle, Motto, Pininfarina, Vignale and Zagato. Initially all fourteen chassis were coded Tipo 812.00, based on standard saloon mechanicals; five of were upgraded to a more powerful 53 PS engine and floor-mounted gearchange, and given the new type designation 812.01. At the April 1956 Turin Motor Show, a month after the successful introduction of the second series Appia in Geneva, five specially bodied Appias were shown: a coupé and a two-door saloon by Vignale, a coupé each from Pininfarina, Boano and Zagato. Between Spring 1956 and Spring 1957 the coachbuilders presented their one-off interpretations of the Appia at various motor shows. Later more 812.01 chassis were built, bringing the total of unique to thirteen. Of the coachbuilders who had worked on the first fourteen chassis, two were selected by Lancia to produce special Appia body styles: Pininfarina for the coupé, and Vignale for the convertible. Their nearly definitive proposals debuted at the March 1957 Geneva Motor Show, and soon went into limited series production. Built by their respective designers on chassis supplied by Lancia, these were included in Lancia’s own catalogue and regularly sold through Lancia dealerships. In the later years other variants were added to the official portfolio: Vignale’s Lusso, Zagato’s GTE and Sport, and Viotti’s Giardinetta. All of these variants were built on the 812.01 type chassis with the more powerful engine and floor change; when the third series saloon debuted its mechanical upgrades were transferred to the chassis, and the engine gained one horsepower 54 PS. In early 1960 a revised, more powerful engine was adopted thanks to a new Weber carburettor and an inlet manifold with a duct per each cylinder. In total 5,161 Appia chassis for coachbuilders were made. A small number were delivered as Van versions (Fourgone). Seen here was a Series 3 Berlina.

Tucked away to one side of the paddock was this Aurelia GT Coupe. Designed by Vittorio Jano, the Lancia Aurelia was launched in 1950 and production lasted until the summer of 1958. The very first Aurelias were the B10 Berlinas. They used the first production V6 engine, a 60° design developed by Francesco de Virgilio who was, between 1943 and 1948 a Lancia engineer, and who worked under Jano. The first cars had a capacity of 1754 cc, and generated 56 hp. During production, capacity grew from 1.8 litres to 2.5 litres across six distinct Series. Prototype engines used a bore and stroke of 68 mm x 72 mm for 1569 cc; these were tested between 1946 and 1948. It was an all-alloy pushrod design with a single camshaft between the cylinder banks. A hemispherical combustion chamber and in-line valves were used. A single Solex or Weber carburettor completed the engine. Some uprated 1991 cc models were fitted with twin carburettors. At the rear was an innovative combination transaxle with the gearbox, clutch, differential, and inboard-mounted drum brakes. The front suspension was a sliding pillar design, with rear semi-trailing arms replaced by a de Dion tube in the Fourth series. The Aurelia was also first car to be fitted with radial tyres as standard equipment. Aurelia was named after Via Aurelia, a Roman road leading from Rome to France. The B21 version was released in 1951 with a larger 1991 cc 70 hp engine and a 2-door B20 GT coupé appeared that same year. It had a shorter wheelbase and a Ghia-designed, Pininfarina-built body. The same 1991 cc engine produced 75 hp in the B20. In all, 500 first series Aurelias were produced. This is generally believed to the first car to use the name GT, or Gran Turismo. The B20 GT Aurelia had a successful career in motorsport, too. In the 1951 Mille Miglia the 2-litre Aurelia, driven by Giovanni Bracco and Umberto Maglioli, finished 2nd beaten only by the Ferrari America. The same year it took first in class and 12th overall at LeMans. Modified Aurelias took the first three places on 1952’s Targa Florio with Felice Bonetto as the winner and another win on Lièges-Rome-Lièges of 1953.

Lancia replaced the long-running Appia with a new model in 1963, the Fulvia. Like the larger Flavia which had been shown 3 years earlier, it came with front wheel drive, and a host of exquisite engineering which ensure that even though it was expensive, it was actually not profitable for its maker, and was a direct contribution to the marque’s bankruptcy and take over by Fiat in 1969. It was not long before the initial Berlina saloon model was joined by a Coupe. First seen in 1965. the Coupe proved to be the longest lived of all Fulvia variants, surviving until 1976 when it was effectively replaced by the 1300cc version of the Beta Coupe. Before that, it had undergone a steady program of updates, with more powerful engines, including a capacity increase from the initial 1200cc of the narrow angle V4 to 1300 and then later 1600cc, and the car was developed into a successful rally machine for the late 60s. The Sport Zagato version was designed by Ercole Spada at Zagato and was intended to be the more sporting model of the range. It was also considerably more expensive. Early cars had an unusual side hinged bonnet, but this was changed on the Series 2 models which were launched in 1970, and which also switched to all-steel bodies. Seen here were a number of examples of the Coupe in S2 and S3 guise, as well as a Sport Zagato. UK market S3 cars had raised outer headlights, which I think look quite neat, but the European spec cars retained the same layout as had featured on the S2 models.

Although their sales only amounted to a small fraction of the total number of first generation Delta cars produced, it is the Integrale models which are best known these days, and the ones you most often see. It may be over 20 years since the last one was produced, but everyone, even youngsters, knows what they are, and just about everyone lusts after them, declaring them as a clear candidate for their Dream Garage. I know that I would certainly have one in mine! Seen here were a number of examples. The Integrale evolved over several years, starting off as the HF Turbo 4WD that was launched in April 1986, to homologate a new rally car for Lancia who needed something to fill the void left by the cancellation of Group B from the end of 1986. The Delta HF 4X4 had a four-wheel drive system with an in-built torque-splitting action. Three differentials were used. Drive to the front wheels was linked through a free-floating differential; drive to the rear wheels was transmitted via a 56/44 front/rear torque-splitting Ferguson viscous-coupling-controlled epicyclic central differential. At the rear wheels wa a Torsen (torque sensing) rear differential. It divided the torque between the wheels according to the available grip, with a maximum lockup of 70%. The basic suspension layout of the Delta 4WD remained the same as in the rest of the two-wheel drive Delta range: MacPherson strut–type independent suspension with dual-rate dampers and helicoidal springs, with the struts and springs set slightly off-centre. The suspension mounting provided more isolation by incorporating flexible rubber links. Progressive rebound bumpers were adopted, while the damper rates, front and rear toe-in and the relative angle between springs and dampers were all altered. The steering was power-assisted rack and pinion. The car looked little different from the front wheel drive models. In September 1987, Lancia showed a more sophisticated version of the car, the Delta HF Integrale 8V. This version incorporated some of the features of the Delta HF 4WD into a road car. The engine was an 8-valve 2 litre fuel injected 4-cylinder, with balancing shafts. The HF version featured new valves, valve seats and water pump, larger water and oil radiators, more powerful cooling fan and bigger air cleaner. A larger capacity Garrett T3 turbocharger with improved air flow and bigger inter-cooler, revised settings for the electronic injection/ignition control unit and a knock sensor, boosting power output to 185 bhp at 5300 rpm and maximum torque of 224 lb/ft at 3500 rpm. The HF Integrale had permanent 4-wheel drive, a front transversely mounted engine and five-speed gearbox. An epicyclic centre differential normally split the torque 56 per cent to the front axle, 44 per cent to the rear. A Ferguson viscous coupling balanced the torque split between front and rear axles depending on road conditions and tyre grip. The Torsen rear differential further divided the torque delivered to each rear wheel according to grip available. A shorter final drive ratio (3.111 instead of 2.944 on the HF 4WD) matched the larger 6.5×15 wheels to give 24 mph/1000 rpm in fifth gear. Braking and suspension were uprated to 284 mm ventilated front discs, a larger brake master cylinder and servo, as well as revised front springs, dampers, and front struts. Next update was to change the engine from 8 valves to 16. The 16v Integrale was introduced at the 1989 Geneva Motorshow, and made a winning debut on the 1989 San Remo Rally. It featured a raised centre of the bonnet to accommodate the new 16 valve engine, as well as wider wheels and tyres and new identity badges front and rear. The torque split was changed to 47% front and 53% rear. The turbocharged 2-litre Lancia 16v engine now produced 200 bhp at 5500 rpm, for a maximum speed of 137 mph and 0–100 km/h in 5.5 seconds. Changes included larger injectors, a more responsive Garrett T3 turbocharger, a more efficient intercooler, and the ability to run on unleaded fuel without modification. The first Evoluzione cars were built at the end of 1991 and through 1992. These were to be the final homologation cars for the Lancia Rally Team; the Catalytic Evoluzione II was never rallied by the factory. The Evoluzione I had a wider track front and rear than earlier Deltas. The bodyside arches were extended and became more rounded. The wings were now made in a single pressing. The front strut top mounts were also raised, which necessitated a front strut brace. The new Integrale retained the four wheel drive layout. The engine was modified to produce 210 bhp at 5750 rpm. External changes included: new grilles in the front bumper to improve the air intake for engine compartment cooling; a redesigned bonnet with new lateral air slats to further assist underbonnet ventilation; an adjustable roof spoiler above the tailgate; new five-bolt wheels with the same design of the rally cars; and a new single exhaust pipe. Interior trim was now grey Alcantara on the Recaro seats, as fitted to the earlier 16V cars; leather and air conditioning were offered as options, as well as a leather-covered Momo steering wheel. Presented in June 1993, the second Evolution version of the Delta HF Integrale featured an updated version of the 2-litre 16-valve turbo engine to produce more power, as well as a three-way catalyst and Lambda probe. A Marelli integrated engine control system with an 8 MHz clock frequency which incorporates: timed sequential multipoint injection; self-adapting injection times; automatic idling control; engine protection strategies depending on the temperature of intaken air; Mapped ignition with two double outlet coils; Three-way catalyst and pre-catalyst with lambda probe (oxygen sensor) on the turbine outlet link; anti-evaporation system with air line for canister flushing optimised for the turbo engine; new Garrett turbocharger: water-cooled with boost-drive management i.e. boost controlled by feedback from the central control unit on the basis of revs/throttle angle; Knock control by engine block sensor and new signal handling software for spark park advance, fuel quantity injected, and turbocharging. The engine now developed 215 PS as against 210 PS on the earlier uncatalysed version and marginally more torque. The 1993 Integrale received a cosmetic and functional facelift that included. new 16″ light alloy rims with 205/45 ZR 16 tyres; body colour roof moulding to underline the connection between the roof and the Solar control windows; aluminium fuel cap and air-intake grilles on the front mudguards; red-painted cylinder head; new leather-covered three-spoke MOMO steering wheel; standard Recaro seats upholstered in beige Alcantara with diagonal stitching. In its latter years the Delta HF gave birth to a number of limited and numbered editions, differing mainly in colour, trim and equipment; some were put on general sale, while others were reserved to specific markets, clubs or selected customers.

The Lancia Dedra, produced from 1989 to 2000 was designed to support, and later to replace, the Prisma and is generally considered to be the saloon version of the second generation Delta, that took a further four years before being released. The Dedra was sold in the UK, and it had a tough job on its hands, as it entered a particularly competitive part of the market, that for medium-sized executive saloons. The design, by Ercole Spada of the I.DE.A Institute, produced an excellent drag coefficient of only 0.29. Lancia positioned the Dedra as offering prestige, exclusivity, personality and comfort, achieved through a high level of equipment and use of materials (e.g. Alcantara) as well as details such as special paints, alloy wheels and an attention to soundproofing, ventilation and other issues. Inside the ability to obtain the perfect driving position was helped by the adjustable seats, steering wheel and electrically adjustable mirrors. Safety, both passive with a structure designed to minimise injury in an accident, and active, such as ABS and airbag, was also near the top of the Dedra’s agenda. It was based on the Fiat Tipo-floorpan, because the idea of Fiat Group at the end of the 80s was to achieve, from a single floorpan (for reasons of economies of scale), four different cars from the same base: good value for money for the Fiat Tipo (1988), elegance for Lancia Dedra 1989, convenience at a competitive price for the Fiat Tempra (1990) (with its large boot) and sportsmanship for the Alfa Romeo 155 (1992). Also were designed on the same floorpan the Lancia Delta and the Fiat Coupe. When the Dedra was launched, it was a good time for Lancia: The Thema had been facelifted a year earlier, and despite being on the market for five years was selling well, the Delta (1979), thanks its continued success in competition was living a second youth, and the Y10 had a slight restyling and good sales. However, the Dedra was not a strong success outside Italy. A major facelift in 1993 did little to boost the car’s sales success and the whole Lancia range including the Dedra was withdrawn from RHD markets a year later. The car, after 1993 also sold as a station wagon, remained popular on the Italian market until it was replaced by the all-new Lybra at the end of the 90s. In 1991 the Dedra Integrale had been added to the range. It used the same engine and transmission as the Delta Integrale 8v, a 2-litre 4-cylinder fuel injected twin cam engine, fitted with contra-rotating balancing shafts, and a Garrett T3 turbocharger and associated inter-cooler to aid volumetric efficiency that boosted power output to 171 PS. The Dedra Integrale also used the same permanent 4-wheel drive of the Delta Integrale, and included a new Visco Drive 2000 traction control system and it also included the electronically controlled suspension available as option in the 2.0 and upper versions. A total of 418,084 Dedras were manufactured. There are only a handful in the UK.

The first generation Delta had been given a second lease of life by its rallying successes, but by the 1990s it was over ten years old and due replacement; its four-door saloon sibling, the Prisma, had already been replaced by the Lancia Dedra. By the time the new car was ready, Lancia had all but pulled out of the UK, so the car was never officially sold here. A few have since been brought in, though, and there were two of them here. Both are the three door HPE models, and are familiar sights at Italian car and other gatherings in the area. The “Nuova Delta” (Tipo 836)—always referred to by Lancia as Lancia δ with the lower-case Greek letter – was introduced at the Geneva Show in 1993, alongside the final “Evo 2” HF Integrale. Sales commenced in May 1993. Initially the Nuova Delta was offered with three engines and outputs varying from 76 to 142 PS: an entry level SOHC 1.6-litre, and two DOHC inline fours with Lancia’s twin counter rotating balance shafts, an 8-valve 1.8 and a 16-valve 2.0 litre. Trim levels were three: base and LE for the 1.6 and 1.8, base and richer LS for two-litre models. The sportier 2.0 HF was also unveiled in Geneva, but went on sale in September; it used a version of the 16-valve 2.0 litre equipped with a Garrett T3 turbocharger and an intercooler to produce 186 PS. Mechanical changes from the other Deltas included up-sized 205/50 tyres, stiffer suspension, standard 4-way ABS, a “Viscodrive” viscous coupling limited slip differential and, in the HF LS trim, electronically adjustable dampers with two settings. Visually the HF turbo was set apart by an eggcrate grille with a gunmetal surround and a yellow HF badge, a sportier front bumper complementing 1.1 inch wider front wings, black side skirts, specific 15 inch 7-spoke alloy wheels and a spoiler at the base of the rear window. Larger disk brakes and optional Alcantara Recaro sport seats were shared with the 2.0 LS. About a year after the launch, in June 1994, the 1.9 turbo ds turbodiesel variant was added to the range; it was powered by the usual 1,929 cc SOHC unit, pushing out 90 PS. The turbo ds was given the flared fenders and bumper of the HF, and was available in base and LE trim. Presented a month later and put on sale in autumn, the Delta 2.0 GT paired the naturally aspirated 2-litre engine with the looks of the HF—flared wings, bumper and spoiler. Although a three-door had been rumoured since 1991, it was not until the 1995 Geneva Motor Show that one became available. It was christened HPE—a denomination that had previously been used for a variant of the Lancia Beta, and standing for “High Performance Executive”. At first the HPE was only available with the three top engines: 2.0 16v, 1.9 turbodiesel and 2.0 16v turbo in HF guise. The three-door bodyshell had entirely redesigned body sides, but retained the roof and rear section of the five-door model; rear wheelarch flares complemented the HF-derived wide front wings and bumper, sported by all HPE versions. This meant the HPE was around 2.4 inches wider than a standard Delta, while all other exterior dimensions remained unchanged. Styling differences from the five-door included specific side skirts and a body-colour grille, to which the HPE 2.0 HF added all the accoutrements of the five-door HF and additional air intakes under the headlights. At the beginning of 1996 the range was updated. All naturally aspirated engines were replaced; the 1.6 and 1.8 8-valve by 16-valve units, while the 2.0 16v was discontinued in favour of a 1.8 16v equipped with variable valve timing. Trim levels for the 5-door were now three: base LE, richer LX and GT, exclusive to the 1.8 V.V.T. engine. The three-door HF turbo remained the only one offered, as the five-door version was discontinued. In addition to the turbocharged engines, the HPE was available with 1.8 V.V.T. and also the smaller 1.6 engines; the latter, entry level HPE adopted the bumper and narrow front wings of the standard Delta. Minor styling changes were introduced, such as alloy wheels and wheel covers of a new design, chrome vertical bars to the 5-door cars’ grille, and body colour mirror caps. November 1997 brought the last revisions for the Delta. Seven models made up the updated range: 5-door and HPE with a choice of 1.6, 1.8 V.V.T. or 1.9 td engines—the 18 16v having been phased out—and a renewed 2.0 HF, again in HPE form only. The 5-door range was reduced to a single LS trim. More of the plastic exterior details were now painted in body colour, namely bumper, bodyside and C-pillar inserts. All HPEs donned flared front wings. The updated HPE 2.0 HF was shown at the Bologna Motor Show in November. Visually it continued the monochrome theme of the restyled cars, and it was made more distinctive by bumpers, side skirts, and spoiler of a new design, and 16 inch Speedline Montecarlo alloy wheels with 215/50 tyres; inside the seats were upholstered in black leather with contrasting colour Alcantara centres. Mechanically it received a tweaked engine, producing 193 PS, which made for a 5 km/h higher top speed. The Delta was dropped from Lancia’s lineup in 1999, with no immediate successor.

The one additional model which appeared on the Sunday was a MonteCarlo. Considered to be part of the Beta family, though there is an awful lot about the car that is very different from the front wheel drive models was the MonteCarlo, one example of which was displayed. First conceived in 1969, with a a final design completed by 1971 by Paolo Martin at Pininfarina, what was initially known as the Fiat X1/8 Project, was originally designed as Pininfarina’s contender to replace Fiat’s 124 Coupe, but it lost out to Bertone’s cheaper design, which became the Fiat X1/9. Rather than scrap the proposal completely, it was developed further, when Fiat commissioned Pininfarina to build a 3.0 litre V6 mid-engined sports car. An X1/8 chassis was used as the start point, and developed for the first time in-house by Pininfarina and not based on any existing production car. Due to the 1973 Oil Crisis, the project was renamed X1/20 and updated to house a 2.0 litre engine. The first car to be made out of the X1/20 Project was the Abarth SE 030 in 1974. The project was passed to Lancia, and the road car was launched at the 1975 Geneva Motor Show as the Lancia Beta MonteCarlo. It was the first car to be made completely in-house by Pininfarina. Lancia launched the MonteCarlo as a premium alternative to the X1/9, with the 2 litre twin cam engine rather than the X1/9’s single cam 1300. Both used a similar, based on the Fiat 128, MacPherson strut front suspension and disc brakes at both front and rear. Lancia Beta parts were limited to those from the existing Fiat/Lancia standard parts bin, the transverse mount version of the Fiat 124’s twin cam engine and the five speed gearbox and transaxle. MonteCarlos were available as fixed head “Coupés” and also as “Spiders” with solid A and B pillars, but a large flat folding canvas roof between them. Sales were slow to get started, and it soon became apparent that there were a number of problems with a reputation for premature locking of the front brakes causing particular alarm. Lancia suspended production in 1979 whilst seeking a solution, which meant that the car was not produced for nearly two years. The second generation model, known simply as MonteCarlo now, was first seen in late 1980. The braking issue was addressed by removing the servo, as well as few other careful mechanical tweaks. The revised cars also had glass panels in the rear buttresses, improving rear visibility somewhat, and there was a revised grille. In the cabin there was a new three spoke Momo steering wheel in place of the old two spoke one, as well as revamped trim and fabrics. The engine was revised, with a higher compression ratio, Marelli electronic ignition and new carburettors which produced more torque. It was not enough for sales to take off, and the model ceased production in 1982, although it took quite a while after that to shift all the stock. Just under 2000 of the Phase 2 cars were made, with 7798 MonteCarlos made in total. There was one present here.

MASERATI

The Ghibli name was resurrected with the unveiling at the 62nd Turin Motor Show in April 1992. of the 1992 Ghibli (Tipo AM336). Like the V8 Maserati Shamal, it was an evolution of the previous Biturbo coupés; the doors, interior, and basic bodyshell were carried over from the Biturbo. It was powered by updated 24-valve Biturbo engines: a 2.0-litre V6 coupled to a six-speed manual transmission for the Italian market, and a 2.8-litre V6 for export, at first with a 5-speed manual, then from 1995 with the 6-speed. A 4-speed automatic was optional. The coupé was built for luxury as well as performance, and its interior featured Connolly leather upholstery and burl elm trim. At the 1994 Geneva Motor Show, Maserati launched an updated Ghibli. A refreshed interior, new wing mirrors, wider and larger 17″ alloy wheels of a new design, fully adjustable electronic suspension and ABS brakes were added. The Ghibli Open Cup single-make racing car was announced in late 1994. Two sport versions were introduced in 1995. The first was the Ghibli Kit Sportivo, whose namesake handling kit included wider tyres on OZ “Futura III” split-rim wheels, specific springs, dampers and anti-roll bars. The second was the limited edition Ghibli Cup, which brought some features of the Open Cup racer into a road-going model; it debuted at the December 1995 Bologna Motor Show. it mounted a 2-litre engine upgraded to 330 PS. At the time the Ghibli Cup had the highest ever per litre power output of any street legal car, surpassing the Bugatti EB110 and Jaguar XJ220. Chassis upgrades included tweaked suspension and Brembo brakes. Visually the Cup was recognizable from its 5-spoke split-rim Speedline wheels and badges on the doors. Only four paint colours were available: red, white, yellow and French blue. The sporty theme continued in the Cup’s cabin with black leather, carbon fibre trim, aluminium pedals and a MOMO steering wheel. A second round of improvements resulted in the Ghibli GT in 1996. It was fitted with 7-spoked 17″ alloy wheels, black headlight housings, and had suspension and transmission modifications. On 4 November 1996 on the Lake Lugano, Guido Cappellini broke the flying kilometre’s World Speed Record on water in the 5-litre class piloting a composite-hulled speedboat powered by the biturbo V6 from the Ghibli Cup and run by Bruno Abbate’s Primatist/Special Team, at an average speed of 216,703 km/h.To celebrate the world record Maserati made 60 special edition Ghiblis called the Ghibli Primatist. The cars featured special Ultramarine blue paintwork and two-tone blue/turquoise leather interior trimmed in polished burr walnut. Production of the second generation Ghibli ended in summer 1998.

There were a couple of examples of what was known internally as the Tipo 338 and is better known as the 3200GT, 4200GT and Spider. After producing BiTurbo based cars for 17 years, Maserati replaced their entire range with a new model in July 1998, the 3200 GT. This very elegant 2+2 grand tourer was styled by Italdesign, whose founder and head Giorgetto Giugiaro had previously designed, among others, the Ghibli, Bora and Merak. The interior design was commissioned to Enrico Fumia. Its name honoured the Maserati 3500 GT, the Trident’s first series production grand tourer. Sold mainly in Europe, the 3200 GT was powered by the twin-turbo, 32-valve, dual overhead cam 3.2-litre V8 engine featured in the Quattroporte Evoluzione, set up to develop 370 PS (365 hp). The car was praised for its styling, with the distinctive array of tail-lights, consisting of LEDs, arranged in the shape of boomerang being particularly worthy of comment. The outer layer of the ‘boomerang’ provided the brake light, with the inner layer providing the directional indicator. The car was also reviewed quite well by the press when they got to drive it in early 1999, though it was clear that they expected more power and excitement. That came after 4,795 cars had been produced, in 2001, with the launch of the 4200 models. Officially called the Coupé and joined by an open-topped Spyder (Tipo M138 in Maserati speak), these models had larger 4.2 litre engines and had been engineered so the cars could be sold in America, marking the return to that market for Maserati after an 11 year gap. There were some detailed styling changes, most notable of which were the replacement of the boomerang rear lights with conventional rectangular units. Few felt that this was an improvement. Minor changes were made to the model during its six year production, but more significant was the launch at the 2004 Geneva Show of the GranSport which sported aerodynamic body cladding, a chrome mesh grille, carbon fibre interior trim, and special 19-inch wheels. It used the Skyhook active suspension, with a 0.4 inch lower ride height, and the Cambiocorsa transmission recalibrated for quicker shifts. The exhaust was specially tuned to “growl” on start-up and full throttle. The GranSport was powered by the same 4244 cc, 90° V8 petrol engine used on the Coupé and Spyder, but developing 400 PS (395 hp) at 7000 rpm due primarily to a different exhaust system and improvements on the intake manifolds and valve seats. A six-speed paddle shift transmission came as standard. The GranSport has a claimed top speed of 180 mph (290 km/h) and a 0–62 mph (0–100 km/h) time of 4.8 seconds. The cars proved popular, selling strongly up until 2007 when they were replaced by the next generation of Maserati.

Still acclaimed as one of the best-looking saloons ever produced is this car, the fifth generation Quattroporte, a couple of which were on show. Around 25,000 of these cars were made between 2004 and 2012, making it the second best selling Maserati of all time, beaten only by the cheaper BiTurbo of the 1980s. The Tipo M139 was unveiled to the world at the Frankfurt Motor Show on 9 September 2003, with production starting in 2004. Exterior and interior design was done by Pininfarina, and the result was widely acclaimed to be one of the best looking saloons not just of its time, but ever, an opinion many would not disagree with even now. Built on an entirely new platform, it was 50 cm (19.7 in) longer than its predecessor and sat on a 40 cm (15.7 in) longer wheelbase. The same architecture would later underpin the GranTurismo and GranCabrio coupés and convertibles. Initially it was powered by an evolution of the naturally aspirated dry sump 4.2-litre V8 engine, mounted on the Maserati Coupé, with an improved output of 400 PS . Due to its greater weight compared to the Coupé and Spyder, the 0-62 mph (0–100 km/h) time for the Quattroporte was 5.2 seconds and the top speed 171 mph (275 km/h). Initially offered in only one configuration, equipped with the DuoSelect transmission, the gearbox was the weak point of the car, receiving most of the criticism from the press reviews. Maserati increased the range at the 2005 Frankfurt Motor Show, with the launch of the Executive GT and Sport GT trim levels. The Executive GT came equipped with a wood-rimmed steering wheel, an alcantara suede interior roof lining, ventilated, adaptive, massaging rear seats, rear air conditioning controls, veneered retractable rear tables, and curtain shades on the rear windows. The exterior was distinguished by 19 inch eight-spoke ball-polished wheels and chrome mesh front and side grilles. The Quattroporte Sport GT variant offered several performance upgrades: faster shifting transmission and firmer Skyhook suspensions thanks to new software calibrations, seven-spoke 20 inch wheels with low-profile tyres, cross-drilled brake rotors and braided brake lines. Model-specific exterior trim included dark mesh front and side grilles and red accents to the Trident badges, as on vintage racing Maseratis. Inside there were aluminium pedals, a sport steering wheel and carbon fibre in place of the standard wood inserts. A new automatic transmission was presented at the 2007 Detroit Motor Show, marketed as the Maserati Quattroporte Automatica. As all three trim levels were offered in both DuoSelect and Automatica versions, the lineup grew to six models. The Quattroporte Sport GT S was introduced at the 2007 Frankfurt Motor Show. Taking further the Sport GT’s focus on handling, this version employed Bilstein single-rate dampers in place of the Skyhook adaptive system. Other changes from the Sport GT comprised a lowered ride height and 10 mm wider 295/30 rear tyres, front Brembo iron/aluminium dual-cast brake rotors and red-painted six piston callipers. The cabin was upholstered in mixed alcantara and leather, with carbon fibre accents; outside the door handles were painted in body colour, while the exterior trim, the 20 inch wheels and the exhaust pipes were finished in a “dark chrome” shade. After Images of a facelifted Quattroporte appeared on the Internet in January 2008; the car made its official début at the 2008 Geneva Motor Show. Overseen by Pininfarina, the facelift brought redesigned bumpers, side sills and side mirrors, a convex front grille with vertical bars instead of horizontal, new headlights and tail lights with directional bi-xenon main beams and LED turn signals. Inside there was a new navigation and entertainment system. All Quattroporte models now used the ZF automatic transmission, the DuoSelect being discontinued. The 4.2-litre Quattroporte now came equipped with single-rate damping comfort-tuned suspension and 18 inch wheels. Debuting alongside it was the Quattroporte S, powered by a wet-sump 4.7-litre V8, the same engine of the Maserati GranTurismo S, with a maximum power of 424 bhp and maximum torque of 361 lb·ft. In conjunction with the engine, the braking system was upgraded to cross-drilled discs on both axles and dual-cast 360 mm rotors with six piston callipers at the front. Skyhook active damping suspension and 19 inch V-spoke wheels were standard. Trim differences from the 4.2-litre cars were limited to a chrome instead of titanium-coloured front grille. The Quattroporte Sport GT S was premièred at the North American International Auto Show in January 2009. Its 4.7-litre V8 produced 440 PS (434 hp), ten more than the Quattroporte S, thanks to revised intake and to a sport exhaust system with electronically actuated bypass valves. Other mechanical changes were to the suspensions, where as on the first Sport GT S single-rate dampers took place of the Skyhook system, ride height was further lowered and stiffer springs were adopted. The exterior was distinguished by a specific front grille with convex vertical bars, black headlight bezels, red accents to the Trident badges, the absence of chrome window trim, body colour door handles and black double oval exhaust pipes instead of the four round ones found on other Quattroporte models. Inside veneers were replaced by “Titan Tex” composite material and the cabin was upholstered in mixed Alcantara and leather. This means that there are quite a number of different versions among the 25,256 units produced, with the early DuoSelect cars being the most numerous.

From the current range, there were also a couple of examples of the current Ghibli saloon, a model I know well, having owned one since the autumn of 2016 as well as a GranTursimo.

A Merak made an appearance on the Sunday. The Merak was introduced at the 1972 Paris Auto Show, over a year after the Bora, a car whose front part of the bodyshell up to the doors, it shares. The front ends are differenced mainly by the use of dual chrome bumpers in place of twin trapezoidal grilles, but the similarities end at the B-pillar. Unlike its bigger sister the Merak doesn’t have a true, fully glassed fastback, but rather a cabin ending abruptly with a vertical rear window and a flat, horizontal engine bonnet pierced by four series of ventilation slats. Giugiaro completed the vehicle’s silhouette by adding open flying buttresses, visually extending the roofline to the tail. The main competitors of the Merak were the similarly Italian, mid-engined, 3-litre and 2+2 Dino 308 GT4 and Lamborghini Urraco P250. However unlike its transverse V8-engined rivals the Merak used a more compact V6, that could therefore be mounted longitudinally. Having been designed during the Citroën ownership of Maserati, certain Citroën hydropneumatic systems were used in the Merak, as for the Bora. These included the braking system and the clutch which were both hydraulically assisted and operated, and the pop-up headlights were hydraulically actuated. After 1976, when the French manufacturer gave up control of Maserati, the Citroën-derived parts were gradually replaced by more conventional systems. In 1977 Alejandro de Tomaso purchased Maserati and the Bora was discontinued after a production run of less than 600 cars, while the Merak remained on sale for six more years. The Merak’s V6 engine descended from the 2.7 litre Tipo C.114 originally designed by Giulio Alfieri in 1967 for use in the Citroën SM, that was bored out to 91.6 mm to displace 2,965 cc. It was a chain-driven double overhead camshaft, 12-valve unit featuring an unusual 90° angle between the cylinder banks. The lubrication system used a wet sump and an oil cooler. This V6 did not end its days on the Merak: it was later modified and made into the first ever production twin-turbocharged engine in the Biturbo, ending its career in the 1990s Ghibli after reaching the highest specific output of any production engine at the time. The powerplant was mounted longitudinally behind the passenger compartment, and joined through a single-plate dry clutch to a 5-speed, all synchromesh Citroën transaxle gearbox and a limited-slip differential. The original Merak’s three-litre engine produced 190 PS at 6000 rpm. Three twin-choke Weber carburettors (one 42 DCNF 31 and two 42 DCNF 32) fed the engine, and the compression ratio was 8.75:1. Maserati declared a top speed of over 240 km/h (149 mph). Early Meraks (1972 to 1975) were fitted with the Citroën SM’s dashboard, characterised by oval instrument gauges inset in a brushed metal fascia and a single-spoke steering wheel. 630 were made up to 1974. The lightened and more powerful Merak SS (Tipo AM122/A) was introduced at the 41st Geneva Motor Show in March 1975, although it did not enter production until the next year. It featured a 50 kg weight reduction and a 30 PS power increase to 220 PS (217 hp), thanks to the adoption of three larger 44 DCNF 44 carburettors and a higher 9:1 compression ratio. The SS was recognisable from a black grille between the pop-up headlights. A Maserati-designed upper fascia with round instruments and a four-spoke steering wheel replaced the previous SM-derived interior furniture. Later cars were bestowed with the full driver-oriented dashboard and three-spoke padded steering wheel of the Maserati Bora. The US-spec version of the Merak SS also saw a return to traditional hydraulics, eliminating the last of the Citroen high pressure system. 1000 units of the SS had been made by 1983, when all Merak production ceased. A third version of the Merak was made, In November 1977 at the Turin Auto Show, De Tomaso launched the Merak 2000 GT (Tipo AM122/D), which was basically a Merak with a smaller two-litre powerplant. It was built almost exclusively for the Italian market, where a newly introduced law strongly penalised cars with engine capacity over 2000 cc by subjecting them to a 38% Value Added Tax against the usual 19% VAT. The Merak’s competitors already offered similar two-litre models, specifically the Urraco P200 and Dino 208 GT4. The Merak 2000 GT featured a 1,999 cc engine generating 170 PS (168 hp) at 7000 rpm. Colour choice was limited to two shades: metallic light blue or gold. The two-litre cars were also distinguished by a black tape stripe running just below the mid-body character line, matte black bumpers in place of the usual chrome and the absence of the front spoiler, available as an optional. The SS’s front bonnet with the grille between the headlights was used on 2000 GTs. When production ended in 1983 just 200 Meraks 2000 GT had been made. Although a total of 1830 Merak models were made, they are rare cars now. Their low values meant that when they went wrong, which they inevitably did, it was not economic to repair or restore them, and a large number have been scrapped, which is a pity, as this is a great looking car.

LA VIE en BLEU – THE FRENCH CARS

And so to the French cars. As with the Italian ones, a few were picked out for display in the Paddock and the rest were parked up in the Orchard. And that is where, just as in 2017, there just seemed to be very few of them compared to previous years. With no specific Club parking, the major Owners Clubs simply did not come, so not only was the Orchard lacking the anchor units that they have brought in previous years and also the special and rare cars that they have brought with them were also conspicuous by their absence. The situation was slightly better on the Sunday, but even then this was a major let down compared to previous years.

AMILCAR

From 1921 to 1937, Amilcar was a successful French sports-racing car manufacturer. These diminutive cars dominated the 1,100-cc racing class into 1927; this one placed second overall in the Brooklands J.C.C. 200-mile race, trumping numerous 1.5-litre Bugattis. It even won its first competition event, the 24-hour test of endurance held on a 3-mile circuit in the Forest of St. Germain. Weighing just 850 lb, the CGSS has an 1,100-cc supercharged four yielding about 35 hp.

BUGATTI

For many people just the sight of the latest Bugatti models would justify the admission price along. Making another appearance at Prescott was a Chiron, the latest hypercar from Molsheim. This car belongs to Prescott-supporter Surjit Rai, and it really did draw the crowds. Taking its name from the 1920s and 1930s Grand Prix racer Louis Chiron, whose notable results included victory in the 1931 French Grand Prix at the wheel of a Bugatti Type 51, this amazing machine, first seen in production guise at the Geneva Show in 2016 had been previewed by the Vision Gran Turismo concept car at the 2015 Frankfurt Show, and a few times after that, such as at the 2016 Retromobile. The immensely powerful Chiron was conceived to occupy the position its highly celebrated predecessor held at the very top of the supercar ladder, one rung above the McLaren P1, Ferrari LaFerrari and Porsche 918 Spyder – all of which had ceased production by the time of the Chrion’s launch. Bugatti describes the second of its modern day models as the most powerful road car to ever reach series production, and it does indeed produce a colossal 1479bhp which means it can reach 62mph in less than 2.5sec – despite weighing 1995kg – and has a maximum top speed of 261mph.. The phrase “series production” is all relative, though, with volumes set to be limited to 500 and a price to match its extreme performance at an eye watering €2.4 million (about £1.9 million) it will remain out of reach for all but the seriously rich. Bugatti boss Wolfgang Dürheimer portrays the quad-turbocharged 8.0-litre W16 powered Chiron as an all-new car that uses little from the Veyron. But while the new Bugatti has been comprehensively re-engineered and now features a full carbonfibre construction, it adopts a similar mechanical package to its record-breaking predecessor. At its heart is a heavily revised version of the quad-turbocharged 8.0-litre W16 configured petrol engine used by the Veyron. With a faintly absurd 1479bhp developed at 6750rpm, the mid-mounted unit delivers 492bhp more than the engine used by the Veyron – in the process providing the Chiron with a power-to-weight ratio of 741bhp per tonne. Torque has also risen by a substantial 257lb ft, peaking at 1179lb ft on a band of revs between 2000 and 6000rpm. Among the more significant developments brought to the Bugatti powerplant is a redesigned carbonfibre inlet manifold, heavily reworked injection system featuring 32 individua l injectors, larger and more powerful turbochargers, a revised intercooler system and new titanium exhaust system with a total of six catalysers that is claimed to provide a substantial reduction in back pressure over the old system. In a bid to provide the new Chiron with what Bugatti describes as a more linear delivery of power than the Veyron, the new turbochargers are operated in a two-stage process; during step off just two turbochargers function initially, with the remaining two joining in to boost performance when the engine speed rises above 3800rpm. The colossal reserves are channelled through a reworked version of the Veyron’s seven-speed dual clutch gearbox and multi-plate clutch four-wheel-drive system; the latter has an electronically controlled differential that provides a torque-vectoring function to vary the amount of drive apportioned to each of the rear wheels and the basis for what Bugatti dubs an “easy to drift” function. While it is yet to undergo final certification testing, Bugatti has released preliminary performance figures suggesting it has achieved its stated aim of making the Chiron faster than the Veyron with claims of 0-to-62mph in under 2.5sec, 0 to 124mph in less than 6.5sec and 0 to 186mph below 13.6sec. By comparison, the Veyron posted official times of 2.5sec, 7.3sec and 16.7sec respectively. As before, top speed is limited in two stages; the so-called handling mode allows 236mph before the electrics step in, and the top-speed mode provides a maximum of 261mph, eclipsing the Veyron by 7mph. The chassis of the Chiron is a clear development of the Veyron’s. In a bid to improve ride quality without compromising body control, it adopts an adaptive suspension system, providing variable ride height and damping control. In combination with variable characteristics for a new electro-mechanical steering system and the four-wheel-drive system, the driver can choose between five driving modes: Lift, Auto, Autobahn, Handling and Top Speed. The Lift mode increases the ride height for speed bumps, while in Auto, Autobahn and Handling modes the top speed is limited to 236mph. To engage Top Speed mode, the Chiron requires a ‘Speed Key’, which alters the engine management system to provide the claimed 261mph maximum. Reining in the vast performance are 420mm front and 400mm rear carbon-ceramic discs grabbed by eight-pot and six-pot calipers respectively. They provide the Chiron with a claimed 62 to 0 mph in 31.3m, 124 to 0 mph in 125m and 186 to 0 mph in 275m – in each case eclipsing the various claimed braking distances of its predecessor. Borrowing strong visual cues from the earlier Veyron, the new Chiron features an even more dramatic design with tauter surfacing, bolder details and added aerodynamic efficiency than that of the car it replaces. The man credited with the new appearance, Bugatti design boss Achim Anscheidt, says it was developed in close collaboration with Bugatti’s engineering team to ensure greater functionality without any loss in overall impact. Key design elements include a race-grade front splitter, large horizontal air ducts, a traditional horseshoe-shaped grille sporting a Bugatti badge fashioned from silver and enamel, distinctive LED headlamps – each with four individual lenses and integrated air ducts that feed cooling air to the front brakes, shapely front wings and a flamboyant semicircular sweep of bodywork extending from the trailing edge of its front wheelarches back towards the rear and into the A-pillars – the latter flourish clearly inspired by the look originally established by Jean Bugatti on the iconic Type 57. As on the Type 57, there is also a prominent centre fin running from the top of the grille across the bonnet and into the heavily rounded roof, providing an important contribution to the Chiron’s longitudinal stability, according to Bugatti. A NACA duct formed by shapely rear pillars replaces the individual air scoops used by the Veyron, channelling air into the engine bay more efficiently and with less turbulence than on its predecessor. It is at the rear where the more significant differences in appearance between the Veyron and Chiron are apparent, with a strong trailing edge, fully integrated rear spoiler, full width LED light band housing the tail lamps, indicators and reserving lamp, sizeable air ducts, large central mounted exhaust and race grade diffuser providing the new Bugatti with a particularly purposeful appearance from behind. Dimensionally, the Chiron remains close to its predecessor. At 4544mm long, 2038mm wide and 1212mm tall, it is 82mm longer, 40mm wider and 53mm higher than the Veyron. The similarities also extend to the wheelbase, which is just 1mm longer, at 2711mm. The Chiron sits on 285/30 R20 ZR tyres at the front, with 355/25 R21 ZR rubber at the rear. The basis for the new Bugatti is provided by a newly developed carbonfibre monocoque structure of the same standard as that used in Audi and Porsche’s LMP1 cars. In a departure from that used by the Veyron, it adopts a sandwich construction for the floor and a carbonfibre-reinforced plastic engine cradle at the rear for added stiffness and lower structure weight. Yet achieving the sort of stiffness achieved by the latest LMP1 race cars, the Chiron is155kg heavier than its predecessor at 1995kg. The increase in width has brought greater space to the two-seat interior and in particular the front wheel wells of the Chiron, according to Bugatti. Greater height has also liberated 12mm extra headroom compared with the Veyron. The cabin is trimmed in a combination of leather, carbonfibre and brushed aluminium. Among the new developments is a passenger airbag that deploys through carbonfibre – a first for a production vehicle. The Chiron is assembled at Bugatti’s headquarters in Mosheim, France. So far, Bugatti has received more than 150 orders for the new car, and deliveries will begin in October, with existing Veyron owners being given priority in the queue. Further variants of the Chiron are planned to be launched, including successor models to the Veyron Grand Sport, Veyron SuperSport and Veyron Grand Vitesse. It is likely that the car will be in “production” until about 2024.

Surjit also brought along a couple of Veyron models, and these were also big crowd pullers.

And in case that was not enough, then there was also an EB110, the first “official” new Bugatti to produced in recent times. Believe it or not, this car owes its origins, at least in part, to Ferruccio Lamborghini. By the mid 1980s, he was no longer involved with the marque which bears his name, but he remained interest in the world of cars, even though he was now making his money as a vintner. He still harboured a dream of once again making cars, and he managed to get introduced to Romano Artiolo, who a the time was one of Ferrari’s most successful European distributors across Germany and Italy, and who owned a number of classic Bugattis. A discussion between the two men at the 1986 about trying to revive the marque led to a scheme with the EB110 at its heart, though Lamborghini soon lost interest in the venture and his part in the Bugatti revival are largely forgotten these days. As plans were made, an array of other stars from the industry came and went. Paolo Stanzani, former Technical Director at Lamborghini did not last long as he did not get on with Artioli and his place was taken by Nicola Materazzi, who had been the project leader on the Lancia Stratos and was heavily involved with the Ferrari Testarossa, 288 GTO and F40. Marcello Gandini, by then a freelancer, was engaged to style the car. No expense was spared, with a purpose-designed state of the art factory being constructed in Campogalliano on the outskirts of Modena. The specification was equally ambitious, with early prototypes with aluminium monocoques being deemed not sufficiently rigid, so aeronautics company Aerospatiale was engaged to develop and produce the carbon fibre tub. The engine was a 3.5 litre all-alloy 60 valve V12, with four small superchargers, which meant that in the SuperSport version, there was 603bhp available. A six speed manual gearbox transmitted all those horses to all four wheels. There was a fairly conventional double wishbone suspension with twin spring/damper units, Brembo brakes and tyres specially developed by Michelin, which all helped the car to establish a production car top speed record of 212.5 mph. Artioli wanted to make ownership painless (relatively) with a three year warranty and service deal. The car was unveiled at the Place de la Defence in Paris in September 1991, on the occasion of Ettore Bugatti’s 110th birthday. Everything looked rosy. but then the world’s economies then stagnated. Artioli’s Suzuki franchise collapsed, though somehow he still had the money to buy up Lotus, but money became tight. The proposed EB112 saloon was quietly shelved, and the EB110 struggled to find buyers. It never got close to the projected 300 units per year. First deliveries were made in December 1992 and when the last car was made in September 1995, just 102 cars had been made. 102 of them were GTs and 38 Supersports. The EB110 was not a bad car, but what really sealed its fate was the McLaren F1, which is just about every respect was simply a better one. That was true back in 1994 and if you look at values of the two cars now, it is clear that the market sees it that way now. On the rare occasions that F1s come up for sale, you are going to have to pay sums in excess of £5 million, which would buy you 10 of the EB110s.

This Type 37 belongs to Bugatto Owners Club Chairman, Charles Trevelyan, and can frequently be seen here. Sharing the same body as was used on the Type 35, The Type 35 chassis and body were reused for the Type 37, which was fitted with a new 1496 cc straight-4 engine, This engine was an SOHC 3-valve design and produced 60 hp The same engine went on to be used in the Type 40. A total of 290 Type 37s were built.

There were a number of other Bugatti models to be seen during the weekend, including Types 35 and 51 as well as the larger Type 43.

A car that is often seen here is what is known as Lydia’s car, a 1928 Type 40 with a one-off Fiacre body built in secret by the 19 year old Jean Bugatti for his sister, Lydia, and retained in the family until the 1970s. The Fiacre body style had been a favourite of Ettore Bugatti for some time, but this car was a more modern reinterpretation with rakish proportions and a lower roof line, the epitome of chic 1920s French design. The design includes a fully folding leather top, retractable side windows, and features a large trunk and a pair of spare wheels. The interior was very luxurious, with lots of leather and mahogany. There are two small rear seats for occasional use. When Ettore found out about the project, which had in fact been going on in the Molsheim coachworks, he said that the car would be too heavy a problem he addressed by fitting the superchargers and drive train from the Type 37 and the brakes were upgraded to the spec of those used in the Type 46.

CHENARD et WALCKER

Another rarity, this is a 1929 Y6 model Chenard-Walker, believed to be one of only 4 Chenard-Walker cars in the UK. It has a 1496cc side valve engine and a four speed gearbox. The boot box is a rare optional feature. Chenard Walker was based in Gennevillers and had relationships with other manufacturers including Rosengart, Delahaye and Citroen though it was Peugoet who took the company over. This particular car has spend most of its life in France, despite its right hand drive. It was initially registered in Puy and belonged to a farming family. It acquired its drab grey paint when it was requisitioned during the War. More recently was it owned by a French inspector for the Control Technique who kept it in its original state and it came to the UK in 2014.

CITROEN

There were more Citroen here than any of the other French marques, but even these were down in number massively compared to a few years ago when you could expect to see rows of historic models parked surrounding a large Car Club base.

Oldest Citroen present was this 1934 Rosalie Ten. Introduced at the 1932 Paris Salon, the Citroen 8CV ‘Rosalie’ was marketed as the Citroen ‘Ten’ in Britain (a differentiation necessitated by the two countries conflicting ways of measuring ‘horsepower’). A well-executed if somewhat conventional ‘light car’ design, the ‘Ten’ was based on a sturdy ladder frame chassis equipped with all-round quarter-elliptic leaf-sprung suspension, four-wheel drum brakes and worm and roller steering. Reputed to develop 32bhp @ 3,200rpm, its 1452cc four-cylinder sidevalve powerplant drove the rear wheels via a three-speed manual gearbox (upgraded to four-speeds from 1934). Claiming a 90km/h top speed, it also boasted such niceties as flexible engine mounts, partial synchromesh and all-steel ‘single piece’ bodywork (available in a variety of open / closed guises). Superseded by the revolutionary ‘Traction Avant’, the model only remained in production until January 1935 by which time some 38,835 are thought to have been sold worldwide (though, survivors are comparatively few and far between).

1934 saw the introduction of the Citroen’s revolutionary and mould-shattering front-wheel-drive semi-monocoque Citroën Traction Avant. The Traction endured a troubled and prolonged birth process, however, and was part of an ambitious investment programme which involved, also in 1934, the bankruptcy of the business, and its acquisition by Citroën’s principal creditor. The patron himself died in 1935. In this troubled situation, availability of the larger Rosalies (although re-engined with a turned-around version of the new Traction’s OHV four-cylinder engines) continued till 1938: it is only through the distorting prism of subsequent events that its reputation has been diminished when set against the technical brilliance of its successor. There were several examples of the Traction Avant here. Produced for over 20 years, many different versions were made during that time, all with the same styling outline, but with power outputs ranging from 7 to 15CV, and different wheelbases, as well as some with Coupe and Convertible body styles. There was even one model with a large opening tailgate, the Commerciale.

There were a number of examples of the classic 2CV here – though far fewer than there have been in previous years.

The Ami was conceived to fill the gap between the 2CV and the much more costly ID and DS. The Ami was offered in saloon and break (estate) body styles over two generations, the Ami 6 and the Ami 8. The Citroën Ami had its formal French launch on 25 April 1961, four months ahead of the August introduction of the widely anticipated Renault 4. Both the Renault 4 and the Citroën Ami responded to a perceived market need for a vehicle slightly larger and less rustic than the 2CV. The Ami is a rebodied 2CV with certain mechanical upgrades (particularly a larger engine than the 1950s 2CV), to compensate for the added weight. At launch all the cars were powered by an air cooled 602 cc two-cylinder flat engine which would also be offered at extra cost in the 2CV from 1970. The platform chassis and suspension is similar to the 2CV, being independent all round using leading and trailing arms and coil springs interconnected front to rear. The Ami’s seats were easily removable. Sales pitches of the Ami included photographs of the seats being used as picnic chairs. The Ami and the Ford Taunus P3 were the first cars with rectangular or lozenge-shaped (non-round) headlights. This technical innovation was developed by lighting manufacturers Hella (Taunus) and Cibie (Ami). Soon this innovation found its way to the exclusive coach built Maserati 5000 GT. At the time, it was an unquestioned article of faith that headlights were round, and in the United States, it was the law, so these new headlights were illegal there until 1975. Ten years later this had inspired European automakers to come up with various non-round headlamp shapes. The car went on sale in France in April 1961, though Citroën implemented some simple upgrades in time for the Paris Motor Show only six months later. The most visible change involved the replacement of the fixed windows on the rear doors with two-part horizontal sliding windows, similar to those already fitted on the front doors. Sales initially were not as good as those of the older 2CV; the Ami’s first full year of production was 1962, during which only 85,358 of the cars were sold, while the thirteen-year-old 2CV managed 144,759 sales during the same period. Although the Ami had a modern body, it shared the aggressively minimalist underpinnings of the older car, and this made it hard to justify a starting price for the Ami which, at the end of 1961, was 35% higher. The 1961 Ami 6 sedan is distinguished by an unusual reverse-raked notchback rear window, similar in style to the 1959 Ford Anglia 105E. A Break (estate) model joined the range in the autumn of 1964. The later Ami 8 saloon, launched in March 1969 has a fastback rear window. It was redesigned by the French car design and bodywork company, Heuliez. Most notable changes were the front part and bonnet and the sloping, rather than inverted, rear window on the saloon. The estate version of the Ami 8 had a similar general appearance to that of the Ami 6 although the later car’s taillights were integrated into the rear wings. The Ami Super was a flat-4 variant powered by the engine of the GS and produced between 1973 and 1976. At the launch of the GS, its original flat four-cylinder air-cooled 1015 cc 55 bhp DIN engine was considered to be underpowered. With surplus engines available, Citroën decided to fit the engine into the Ami 8 in January 1973. The car, which became the Ami Super, then easily reached 140 km / h. From the outside, it had a new front grille with six additional vents underneath. On the sides of the front wing there was a badge marked 1015 in reference to the new engine. The body is the same as the Ami 8 apart from changes to inner front wings, bonnet, front panel and bumper mountings. The chassis was also modified from the standard Ami 8 with alterations made to accommodate the 1015 cc engine. Other changes included thicker wire in the suspension springs, to give a tauter ride and front anti-roll bars. Rear anti-roll bars were fitted from 1974 onwards until the end of Ami Super Production in 1976. The Ami Super and Ami 8 Break (Estate) were fitted with 135 15 ZX Michelin tyres as standard while the Ami 8 Berline retained the Michelin 125 15 X although 135 15’s could be ordered as an option. Also on the Ami Super headlamps with built in Quartz iodine fog lights were offered as an option, other options included heated rear screens. Inside, the gear change is floor mounted, in place of the dashboard mounted gear lever of the Ami 6 and 8 and to accommodate this the hand brake of the Super curves up instead of down. The speedometer was also specific to the Ami Super differing slightly to allow higher speed numbers to be shown. The Ami Super was offered in the same three trim levels as the Ami 8, Luxe, Confort and Club on Saloon and Luxe and Confort on Break (estate) versions. These trim differences were fairly minor with Luxe models having bench front and rear seats and vinyl floor matting. Confort trim offered reclining front seats in place of the front bench. The Club models can be considered the Pallas of the Ami range featured sound proofing pads on the floor and bulkhead, carpet including boot lining, stainless steel trim on the window frames and side rubbing strips on the doors and rear wings. Club trim was only available up to the end of the 1973 model year, after that point Ami 8 and Ami super were only available in Luxe and Confort specification. From 1974 Ami Super models were revamped to feature a double line graphic along the exterior of the body sides, either in black or silver depending on body colour, with slotted wheels and double line detailing on the hubcaps. The rear window also featured a graphic in white proclaiming “Ami Super 1015cm³” As the Ami Super looked very much like an Ami 8, and could surprise many by demonstrating its dramatic performance advantage compared to the Ami 8 (55 hp compared to 32 hp). Quoted by Autocar magazine in the UK as a “Q car par excellence” sadly in France its 5CV tax rating made little sense in a small car and as a result sales were low compared to the Ami 8. In the UK however where no such tax penalties existed the Ami Super attracted healthy sales although is now a rare sight due to poor corrosion resistance, a feature suffered by many vehicles of this era. The Ami Super production reached close to 42,000 in sedan and station wagon by February 1976. The Ami 8 continued until early 1979 and reached in the region of 722,000 production, a significant percentage of the total of 1,840,396 of all Ami models.

Final version of these small air-cooled Citroens was a rather splendid Acadiane Van. This was derived from the Dyane and only available in left-hand drive, produced from 1977 to 1987. Production totalled 253,393 before being replaced by the Visa-based C15. Why Acadiane? Well, as Citroën had already used the prefix AK for its light commercials, so it was an obvious pun to name the AK Dyane “Acadiane”. There was no connection beyond the pun with the French-speaking region of Louisiana that is home to Cajun (Acadiane) cooking. The Acadiane differed from the Dyane on which it was based in having heavier-duty suspension, a slightly altered chassis and a rear-brake limiter whose action was dependent on the load. The Acadiane was also fitted with wind-down windows in the driver’s and passenger’s doors. The Dyane car had horizontally-sliding windows. The payload was approximately 500 kg (1,100 lb), but handling was impaired when fully loaded. The Acadiane was available in commercial (two-seater) form or as a “Mixte”, with sliding rear windows and a removable rear bench seat. Citroën and many other manufacturers continue to this day (Berlingo et al.) with the option of rear seats in a vehicle clearly designed as a commercial. The Mixte version also had a passenger sun visor, missing in the more basic commercial version. In line with many Citroën light commercials, the roof of the rear bodywork was corrugated to add extra rigidity at little cost. The Acadiane cruised on the flat comfortably and economically at 55 mph. Top gear in the four-speed box was usually referred to as overdrive. This had been so since the earliest days of the 2CV. In most circumstances it was best used as such. Progress could be maintained in top, but further acceleration was unlikely. As the motor thrived on revs, third made a perfectly good gear to get up to 80 km/h.

There were a handful of examples of the legendary DS family here. It is hard to imagine just how revolutionary this car must have seemed when it was unveiled at the Paris Show in 1955. 18 years in secret development as the successor to the Traction Avant, the DS 19 stole the show, and within 15 minutes of opening, 743 orders were taken. By the end of the first day, that number had risen to 12,000. Contemporary journalists said the DS pushed the envelope in the ride vs. handling compromise possible in a motor vehicle. To a France still deep in reconstruction after the devastation of World War II, and also building its identity in the post-colonial world, the DS was a symbol of French ingenuity. It also posited the nation’s relevance in the Space Age, during the global race for technology of the Cold War. Structuralist philosopher Roland Barthes, in an essay about the car, said that it looked as if it had “fallen from the sky”. An American advertisement summarised this selling point: “It takes a special person to drive a special car”. Because they were owned by the technologically aggressive tyre manufacturer Michelin, Citroën had designed their cars around the technically superior radial tyre since 1948, and the DS was no exception. The car featured a novel hydropneumatic suspension including an automatic levelling system and variable ground clearance, developed in-house by Paul Magès. This suspension allowed the DS to travel quickly on the poor road surfaces common in France. In addition, the vehicle had power steering and a semi-automatic transmission (the transmission required no clutch pedal, but gears still had to be shifted by hand though the shift lever controlled a powered hydraulic shift mechanism in place of a mechanical linkage, and a fibreglass roof which lowered the centre of gravity and so reduced weight transfer. Inboard front brakes (as well as independent suspension) reduced unsprung weight. Different front and rear track widths and tyre sizes reduced the unequal tyre loading, which is well known to promote understeer, typical of front-engined and front-wheel drive cars. As with all French cars, the DS design was affected by the tax horsepower system, which effectively mandated very small engines. Unlike the Traction Avant predecessor, there was no top-of-range model with a powerful six-cylinder engine. Citroën had planned an air-cooled flat-6 engine for the car, but did not have the funds to put the prototype engine into production. The 1955 DS19 was 65% more expensive than the car it replaced, the Citroën Traction Avant. This did impact potential sales in a country still recovering economically from World War II, so a cheaper submodel, the Citroën ID, was introduced in 1957. The ID shared the DS’s body but was less powerful and luxurious. Although it shared the engine capacity of the DS engine (at this stage 1,911 cc), the ID provided a maximum power output of only 69 hp compared to the 75 hp claimed for the DS19. Power outputs were further differentiated in 1961 when the DS19 acquired a Weber-32 twin bodied carburettor, and the increasing availability of higher octane fuel enabled the manufacturer to increase the compression ratio from 7.5:1 to 8.5:1. A new DS19 now came with a promised 83 hp of power. The ID19 was also more traditional mechanically: it had no power steering and had conventional transmission and clutch instead of the DS’s hydraulically controlled set-up. Initially the basic ID19 was sold on the French market with a price saving of more than 25% against the DS, although the differential was reduced at the end of 1961 when the manufacturer quietly withdrew the entry level ID19 “Normale” from sale. An estate version was introduced in 1958. It was known by various names in different markets: Break in France, Safari and Estate in the UK, Wagon in the US, and Citroën Australia used the terms Safari and Station-Wagon. It had a steel roof to support the standard roof rack. ‘Familiales’ had a rear seat mounted further back in the cabin, with three folding seats between the front and rear squabs. The standard Break had two side-facing seats in the main load area at the back. During the 20 year production life, improvements were made on an ongoing basis. In September 1962, the DS was restyled with a more aerodynamically efficient nose, better ventilation and other improvements. It retained the open two headlamp appearance, but was available with an optional set of driving lights mounted on the front bumpers. A more luxurious Pallas trim came in for 1965 Named after the Greek goddess Pallas, this included comfort features such as better noise insulation, a more luxurious (and optional leather) upholstery and external trim embellishments. The cars were complex, and not always totally reliable, One of the issues that emerged during long term use was addressed with a change which came in for 1967. The original hydropneumatic system used a vegetable oil liquide hydraulique végétal (LHV), similar to that used in other cars at the time, but later switched to a synthetic fluid liquide hydraulique synthétique (LHS). Both of these had the disadvantage that they are hygroscopic, as is the case with most brake fluids. Disuse allows water to enter the hydraulic components causing deterioration and expensive maintenance work. The difficulty with hygroscopic hydraulic fluid was exacerbated in the DS/ID due to the extreme rise and fall in the fluid level in the reservoir, which went from nearly full to nearly empty when the suspension extended to maximum height and the six accumulators in the system filled with fluid. With every “inhalation” of fresh moisture- (and dust-) laden air, the fluid absorbed more water. For the 1967 model year, Citroën introduced a new mineral oil-based fluid liquide hydraulique minéral (LHM). This fluid was much less harsh on the system. LHM remained in use within Citroën until the Xantia was discontinued in 2001. LHM required completely different materials for the seals. Using either fluid in the incorrect system would completely destroy the hydraulic seals very quickly. To help avoid this problem, Citroën added a bright green dye to the LHM fluid and also painted all hydraulic elements bright green. The former LHS parts were painted black. All models, including the Safari and ID, were upgraded at the same time. The hydraulic fluid changed to the technically superior LHM (Liquide Hydraulique Minéral) in all markets except the US and Canada, where the change did not take place until January 1969, due to local regulations. Rarest and most collectable of all DS variants, a convertible was offered from 1958 until 1973. The Cabriolet d’Usine (factory convertible) were built by French carrossier Henri Chapron, for the Citroën dealer network. It was an expensive car, so only 1,365 were sold. These DS convertibles used a special frame which was reinforced on the side members and rear suspension swing arm bearing box, similar to, but not identical to the Break/Safari frame.

On the Saturday, there was a lovely example of the SM in the Paddock. This glamorous Sports/GT Coupe still wows people over 45 years since its debut. The Citroën SM was first shown at the 1970 Geneva Motor Show, but work on the car had started way back in 1961, with ‘Project S’, which was envisaged to be a a sports variant of the revolutionary Citroen DS. For the next few years, many running concept vehicles were developed, and these became increasingly complex and upmarket from the DS. In 1968, Citroën purchased Maserati, with the intention of harnessing Maserati’s high-performance engine technology to produce a true Gran Turismo car, which would combine Citroen’s advanced suspension with a V6 Maserati engine. The car was a sensation when revealed, with its distinctive styling, an amazingly low drag coefficient of just 0.26, and as well as the advanced features from the DS such as lights that swivelled with the steering and the advanced hydropneumatic self-levelling suspension there were numerous technical innovations such as variable assistance for the power steering, rain sensitive wipers and the option of lightweight wheels of composite alloys. It was a further six months before customers could get behind the wheel, with the SM finally going on sale in France in September of that year. The origin of the model name ‘SM’ is not clear. The ‘S’ may derive from the Project ‘S’ designation, and the ‘M’ may refers to Maserati, hence SM is often assumed to stand for ‘Sports Maserati’. Another common hypothesis is that SM stood for Série Maserati and others have suggested it is short for ‘Sa Majesté’ (Her Majesty in French), which would aligns with the explanation that the DS model was so called as a contraction of the French word ‘Déesse’ (The Goddess). Regardless of the origins of the name, it attracted lots of attention, and came third in the 1971 Car of the Year competition (behind Citroen’s own revolutionary GS model). For a couple of years, sales were reasonable, but they fell off dramatically in 1973, not just because of the Oil Crisis that struck late that year, but largely because the SM’s technical complexity came with a price tag of some terrible reliability problems, something which owners of rival cars simply did not experience. To compound the owner’s misery, they needed to find and pay for Citroen specialists who understood the hydraulics and a Maserati specialist for the engine. Both categories were kept busy. Citroen declared bankruptcy in 1974 and the company was purchased in May 1975. Thanks to changes in US legislation, sales in that market, which had hitherto been the SM’s largest had ceased, and so with global sales of under 300 SMs in 1974, having divested itself of Maserati, new owner Peugeot took the obvious decision to cease production of the SM almost immediately. During the SM’s 5 year product life, a total of 12,920 cars were produced. With the exception of a handful of conversions for the Australian market, all SMs were made in left hand drive, which is perhaps one reason why UK sales amounted to just 325 cars from that total. Although this is often labelled as one of the 4 “nightmare cars of the apocalypse” (along with the Triumph Stag and Alfa Montreal), the reality is that the surviving cars have largely been “fixed” and they are now not the fearsome ownership proposition that many still assume.

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. The GS was facelifted in 1979 and given a hatchback, and renamed the GSA. This change reflected the growing popularity of small family hatchbacks in Europe since the launch of the Volkswagen Golf. Other modifications included a new grille, new plastic bumpers, new taillights, new hubcaps and new exterior door handles. It also had a revised dashboard with the auxiliary controls on column-shaped pods so they could be reached without moving the hands from the single-spoked steering wheel; similar to the CX layout. It was partly replaced by the larger BX in 1982, although production continued in reduced volumes until 1986. Citroën did not re-enter the small family hatchback market until the launch of the ZX in 1991. The GS met with instant market acceptance and was the largest selling Citroën model for many years. 1,896,742 GS models and 576,757 GSA models were produced in total. Seen here on the Saturday was a GS Break (Estate) and this was joined on the Sunday by a Saloon model.

There were a couple of examples of the CX here on the Sunday, one of them an early car. Although it was perhaps not as radical a product as the DS, which it replaced had been, this was still something of a futuristic looking car when it was revealed in 1974. Indeed, it is considered by some enthusiasts as the last “real Citroën” before Peugeot took control of the company in 1976, and as history has now shown, is, it was to be the final successful model of the “big Citroën” era, which began in 1934, as Citroën sold nearly 1.2 million CXs during its 16 years of production. The CX’s flowing lines and sharp Kamm tail were designed by auto stylist Robert Opron, resembling its precursor the GS. Citroën had been using a Wind tunnel for many years, and the CX was designed to perform well in aerodynamic drag, with a low coefficient of drag (Cd in English; CX in French) of 0.36. Despite its fastback lines, the model was never sold as a hatchback, even though many of its rivals adopted this during the 1970s, and Citroen thus modified their own GS late in its life. Mechanically, the car was one of the most modern of its time, combining Citroën’s unique hydro-pneumatic integral self-levelling suspension, speed-adjustable DIRAVI power steering (first introduced on the Citroën SM), and a uniquely effective interior design that did away with steering column stalks, allowing the driver to reach all controls while both hands remained on the steering wheel. The CX suspension’s ability to soak up large undulations and yet damp out rough surfaces was extraordinary, with a consistent ride quality, empty, or fully laden. The suspension was attached to sub frames that were fitted to the body through flexible mountings, to improve even more the ride quality and to reduce road noise. “Car” magazine described the sensation of driving a CX as hovering over road irregularities, much like a ship traversing above the ocean floor. This suspension was used under license by Rolls-Royce on the Silver Shadow. The Mercedes-Benz 450SEL 6.9 was not built under license, but copied the Hydropneumatic suspension principles after the less effective Mercedes-Benz 600 Air suspension installation. The CX was conceived to be a rotary-engined car—with several negative consequences. The CX engine bay is small because rotary engines are compact, but the Comotor three-rotor rotary engine was not economical and the entire rotary project was scrapped the year the CX was introduced, and Citroen went bankrupt in 1974, partly due to a series of investments like Comotor that didn’t result in profitable products. Production versions of the CX were always powered by a modest inline 4 cylinder engine, transversely mounted. This saved space and allowed the CX to be 8″ shorter than the DS. At launch in 1974, the CX was rushed to market, with some teething troubles. Some very early models did not have power steering which made the car difficult and heavy to drive – the CX carries 70% of its weight over the front wheels. Initially there was a choice between three differently powered versions. The “Normale” CX car came with a 1985 cc version of the four cylinder engine from the predecessor model with a claimed maximum output of 102 PS, which was slightly more than had been available from the engine when fitted in the DS. The “Economique” version of the car (reflecting the continuing impact of the 1973 oil price shock) came with the same engine as the “Normale”, but the gear ratios were changed, along with the final drive ratio, giving rise to a 7 km/h (4 mph) reduction in top speed in return for usefully improved fuel economy. More performance came from the “CX 2200”, fitted with a 2175 cc version of the engine and a twin carburettor, resulting in a claimed maximum output of 112 PS. This was rather less than was available in the top spec DS23 EFi which featured a relatively powerful 141 PS fuel-injected 2.3-litre engine. The later 2200 improved on this, and eventually the same 2347 cc unit as used in the DS) arrived, originally only in the long wheel-base Prestige, but a regular CX 2400 arrived at the 1976 Paris Salon, to replace the CX 2200. By this time, Citroen had added a capacious Estate model to the range, called Safari, and a 2.2 litre Diesel powered model – important even in the mid 1970s in France – was also offered. Despite the challenging finances of Citroën at the time of launch, the CX was entered in numerous rally driving events, like Tour du Senegal and Paris-Dakar, winning 5 events outright. Most notable among these was in the 17,500 mile 1977 London–Sydney Marathon road race in which Paddy Hopkirk, driving a CX 2400 sponsored by Citroën’s Australian concessionaire, staged a come-from-behind sprint to obtain third place. The CX was initially a huge success in Europe, more than 132,000 being produced in 1978. It found customers beyond the loyal Citroën DS customer base and brought the technology of the advanced, but somewhat impractical, Citroën SM to the masses. Evolution of the car after this was gradual. More power came in 1977, with the CX GTi which received a modern Bosch L-Jetronic injection system, generating 128 PS, and there was a standard five speed gearbox, and in early 1978, the diesel engine was enlarged to 2.,5 litres. A five speed gearbox was available. A very mild facelift in 1979 saw the Douvrin 2 litre engines that were used in the rival Renault R20 fitted under the bonnet to create the CX Reflex and Athena. In 1981, factory rustproofing and a fully automatic transmission to replace the former semi-automatic gearbox were added. In 1984, the addition of a turbo to the 2.5 litre diesel engine made the CX Turbo-D 2.5 the fastest diesel sedan in the world, able to reach speeds up to 195 km/h (121 mph). In 1985, the GTi Turbo, with a top speed of over 220 km/h (137 mph), finally gave the CX the powerful engine that finally used the full capabilities of the chassis. A facelift later that year was an attempt to keep the car in the public eye, but its sales had peaked long ago, back in 1978, and better trim, a revised interior and new plastic bumpers were not going to help a 10 year old design in the face of stiff market competition. Just 35,000 units were produced in 1986 and 1987. There were few further changes for the rest of the CX’s life, with its successor, the XM appearing in early 1989. Production of the Estate models continued until 1991, by which time 1,170,645 CXs had been sold. There are far fewer survivors than there are of the DS family.

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. The car seen here is a V6 Activa, believed to be the only one in the UK and one of just 32 survivors worldwide.

Final Citroen here was the elegant C6, an executive car produced from 2005 to 2012. The Citroën C6 was inspired by the Citroën C6 Lignage concept car with a fastback saloon like styling, which was first shown at the Geneva Motor Show in the spring of 1999, but differs from the concept car’s styling in minor details (like not having rear suicide doors for easy access). The C6 was intended as a replacement for the XM, and Citroën was intent on launching it before the end of 2000. It was finally launched in November 2005, five years later than Citroën had originally planned. The XM ceased production in June 2000, and the first C6 rolled off the production line almost five years later. The C6 came powered by either a 3.0 L ES9 V6 producing 208 bhp or a 2.7 L V6 HDi diesel producing 201 bhp. In October 2006 a 2.2 L HDi producing 168 bhp) with FAP, four cylinders and a dual turbo was introduced. In June 2009, the new 3.0 L V6 HDi diesel producing 237 bhp replaced the 2.7 L V6 HDi. The C6 has a fastback saloon profile which is due in part to the concave rear window, similar to the Citroën CX and some models of Dodge in the 60s. However, the C6 is a conventional saloon with a classic trunk, and not a hatchback like its XM predecessor. The C6 was aimed as a stylish alternative to executive cars, like the BMW 5 Series and the Audi A6, and it has been described as “spaceship that rides on air”, “charmingly idiosyncratic” and “refreshingly different”. Citroën hoped that the C6’s selling points would be its innovative technology, which includes a head-up display, a lane departure warning system, xenon directional headlamps (also available on the Citroën C4 and Citroën C5), Hydractive 3+ suspension with electronically controlled springing and damping, and a rear spoiler which automatically adjusts to speed and braking. The C6 was the first car to obtain four stars in the pedestrian test rating of EuroNCAP, due to the inventive design, where the bonnet pops up a little if a person/animal is hit, thus increasing the gap between the deformable bonnet, and the non deformable engine components below. On an episode of Top Gear, Jeremy Clarkson tested the C6’s Hydractive suspension by mounting a camera on it and driving it on the infield of Towcester Racecourse while filming a horse race. Despite the bumps and potholes on the infield, the C6 managed to provide a comfortable ride and stable video coverage of the race while moving at 60 km/h (37 mph). At the same time, a BMW 5 Series (with M Sport package) performed the same test, but its suspension could not keep the camera upright. The C6 immediately became a prominent vehicle among the fleet of executive cars of the Élysée Palace. Former Presidents of France, Jacques Chirac and Nicolas Sarkozy, have chosen the Citroën C6 as their official car. Chirac, in particular, used a pre series car before the model was introduced. At launch, sales expectations across the model’s lifespan were given as 20,000 per year, the sad reality is that only 23,000 were made during the car’s production life.

CLEMENT-TALBOT

DONNET

I’ve seen this car, a Donnet G2 at Prescott before, but did not really know anything about it. Writing this article prompted me to do a little more research on this long extinct marque. In 1919, five years after founding the successful flying boat manufacturer Donnet-Denhaut at Neuilly-sur-Seine, designer François Denhaut parted ways with co founder Jérôme Donnet who then switched from aircraft manufacturing to become an automobile manufacturer with the acquisition of Automobiles Zedel of Pontarlier in the Doubs area of France from whence he marketed the Donnet-Zedel CI-6 a Zedel design originating from 1912. In August 1924 the production of a chassis for the all new four cylinder 1098 cc Donnet Zedel Type G commenced in a new factory at Gennevilliers, Seine with final assembly of the new model taking place at the former and Donnet flying boat factory on the Ile de la Jatte. The 16 hp side valve engine featured magneto ignition and a two bearing crankshaft and it drove the rear wheels through a four speed gearbox. A foot brake operated on the drive shaft and the hand brake operated the drums on the rear axle. The Donnet G2; with a revised chassis, standard 2 blade engine cooling fan, four wheel drum brakes, relocated hand brake lever, and more substantial rear axle, was launched in May 1926 when Zedel was dropped from the brand name. The car seen here is believed to have originally been resident near Avignion. It came to the UK in 1981, and was rescued from a field in 1989 and then underwent a restoration which resulted in it being first registered in the UK in October 1992. A total of 13,400 Donnet G2s are believed to have been built between May 1926 and October 1928 and this example is one of only two G2s and three Donnets known to exist in the UK.

HOTCHKISS

Hotchkiss cars were made between 1903 and 1955 by the French company Hotchkiss et Cie in Saint-Denis, Paris. The badge for the marque showed a pair of crossed cannons, evoking the company’s history as an arms manufacturer. The company’s first entry into car making came from orders for engine components such as crankshafts which were supplied to Panhard et Levassor, De Dion-Bouton and other pioneering companies and in 1903 they went on to make complete engines. Encouraged by two major car distributors, Mann & Overton of London and Fournier of Paris, Hotchkiss decided to start making their own range of cars and purchased a Mercedes Simplex for inspiration and Georges Terasse, previously of Mors, was taken on as designer. The first Hotchkiss car, a 17 CV four-cylinder model, appeared in 1903. The engine of the 20 CV type C was heavily based on the Mercedes Simplex except that wherever possible it used ball bearings rather than plain ones (including the crankshaft) and except the Hotchkiss drive. Six-cylinder models, the types L and O followed in 1907. The ball bearing engines lasted until the 30CV type X of 1910. In that same year Hotchkiss moved into a smaller car market with the 2212cc type Z. With the outbreak of World War I, the factory turned to war production and a subsidiary plant was opened in Coventry, England. Car production resumed in France 1919 with the pre war types AD, AD6, AF and AG. During World War I, they produced machine guns and tested them from the factory roof. After an attempt to enter the luxury market with the AK, which did not get beyond the prototype stage, the company decided on a one model policy and introduced the Coventry designed AM in 1923. Later that year the Coventry plant was sold to Morris. Henry Mann Ainsworth (1884–1971) and Alfred Herbert Wilde (1889 – 1930) who had run it, moved to Paris to become general manager and chief engineer of the car division respectively. In 1926 construction of the new factory in the Boulevard Ornano was completed and in 1929 Hotchkiss got hold of a steel press allowing in-house manufacture of steel bodies. The one model policy lasted until 1929 when the six-cylinder AM73 and AM80 models were announced. “73” and “80” stood for the bore of the engines used, a naming theme picked up again later in 1936 after a brief hiatus.

The Hotchkiss Anjou was a luxury car offered between 1950 and 1954 by the French automaker Hotchkiss. It was an updated version of the 486 and 686/866 models which had first appeared in the 1930s and inherited its engines from those cars, although their engines in turn dated back to OHC units introduced in the mid-1920s. The car was launched in autumn 1950, and during the first year 1,787 were produced. In 1951 the company produced a further 2,666. The depressed state of the economy and the government’s punitive taxation policy, especially in respect of larger cars, saw to it that, at least in terms of units produced, 1951 was the car’s best year, however. 815 were produced in 1952 and only 197 in 1953. 1953 was the last year of production, but the company was still advertising new cars for sale at least until the end of 1954, which indicates that their financial problems may well have been exacerbated by the practice of systematically manufacturing more cars than they were selling earlier in the Anjou’s life. The Anjou came with a large limousine-style body significantly modified when compared to its predecessors and characteristic of the times. A small number of two-door coupés were produced as well as a 2-door cabriolet, branded as the Hotchkiss Anthéor. There was a choice of two engine sizes. Most cars were shipped with a four-cylinder ohc 2,312 cc water-cooled unit with one or, at the customer’s option, two carburettors. However, a longer-nosed version allowed space for the larger ohc six-cylinder 3,485 cc water-cooled engine that promoted the car into the stratospheric 20CV taxation class, but increased claimed maximum power from 72/75 hp to 100/125 hp, with a corresponding increase in claimed maximum speed from 130 km/h (81 mph) to 145 km/h (90 mph). Sources for the power output vary, possibly according to whether the engine was fed by one or two carburettors. Both cars were offered with so-called “classic” four-speed manual transmission, and the smaller-engined car was available with an optional electromagnetic “Cotal” gearbox, which is seen by some as a precursor to more modern automatic transmission systems, and which would also have stood out from the crowd at any time on account of its having featured four forward speeds and four reverse speeds. In addition to the 5,465 Anjous produced, the company built about 40 of the 2-door cabriolet Anthéor models.

MORS

This is a 1904 Mors 32hp with Roi de Belges tourer bodywork.

PANHARD

This is a PL17. Believe it or not, under that huge bonnet, powering a rather sizeable family saloon is a 2 cylinder engine with a capacity of a mere 851cc, which put out just 42 bhp. First presented in 1959, the model’s name was derived from “PL” for “Panhard et Levassor” (the original full name of the company), with the “17” coming from the sum of 5+6+6, being 5 CV (fiscal horses, in the French power rating system) plus 6 for the car’s six seats, plus 6 for the car’s economy of 6 L/100 km (47 mpg). The car was relatively expensive, though, costing more than a 1300cc Simca Aronde, and although it had roominess on its side, the lack of syncromesh in the gearbox made it hard to drive. Production ceased in 1965.

This rather attractive car, a Panhard 24CT, would turn out to be the last model from this French marque before Citroen, who had bought the company in 1955, would decide to kill the brand off. The Panhard 24 was launched in 1964 and was produced for three years. It was powered by a front-mounted air-cooled two-cylinder boxer motor: the basic design of this unconventional engine dated back to the 1940s. In 1965 a lengthened Panhard 24 was launched and promoted as a two-door four- or five-seat saloon. Plans for a four-door version which might have enabled the car more effectively to replace the commercially successful Panhard PL 17 saloon were never implemented, however. The car received a memorable press launch on 23 June 1963. A two tone Panhard 24 CT coloured in plum and grey was presented (although two tone paint work would not be a regular feature of the production versions). Journalists were shown the car in a large garden near Montlhéry, with a back drop of antique statues and rose bushes, complemented by imaginative lighting effects. Two versions were offered from 1964, the 24 C and the 24 CT. They were promoted respectively as a four-seater and as a 2+2, but they shared a wheelbase of 2,290 mm (90.2 in) and the same interior dimensions. The C had a relatively basic interior and an advertised engine output of 42 bhp (DIN) equating to 50 bhp (SAE): relatively few were sold and this version was dropped after a year. The CT was more luxuriously equipped and boasted an engine output of 50 bhp (DIN) equating to 60 bhp (SAE). The CT would prove more popular: but overall sales volumes were from the start lower than Panhard had anticipated for the car, which may have contributed to arguments against progressing development of the four-door version that had been envisaged. In 1965, the 2,550 mm (100.4 in) wheelbase versions became available, offering space for four or five, but still only with two doors. These were designated the Panhard 24 B and the Panhard 24 BT. Equipment levels and engine options were as for the shorter C and CT versions. In 1966, possibly in a belated bid for the mass market, a stripped down basic version, the Panhard 24 BA was offered. In contrast to the 24s offered for sale thus far, this one had a very basic interior. Even the lidded glove box was replaced by an open shelf. Only 161 24 BAs were produced, although enthusiasts have suggested that they nevertheless compromised the upmarket image of the more expensive versions. Although the Panhard 24 had a new modern body, the engine was an old friend. The two-cylinder air-cooled boxer motor of 848 cc, harked back to the 850 cc engine that had first appeared in the Panhard Dyna X in 1952 (itself an enlarged version of Panhard’s 610 cc boxer motor first seen in 1947). By 1954 when they appeared in the then newly announced Dyna Z these engines had been developed to the point where they produced a claimed output of 42 bhp or 50 bhp, according to version, and it was with these two output levels that the engine soldiered on in both the PL 17 and, subsequently, in the 24. The engines were compact and efficient, but they had originally been developed for aluminium bodied cars: by the 1960s it was no longer economically practical to construct cars in this price bracket out of aluminium, and while the Panhard 24 was not a heavy car, it was heavier than earlier Panhard saloons. At the same time, the competition had not been standing still. The claimed maximum speed ranged from 135 km/h (84 mph) for the long-wheelbase 42 bhp Panhard 24 to 150 for the short-wheelbase 50 bhp version. A slightly faster Tiger 10 S-engined version was reportedly capable of 160 km/h (100 mph). The 24’s performance was adequate, but probably fell short of the expectations triggered by the car’s sporty profile. And power delivery from an air-cooled flat two-cylinder engine did not sound as effortless as from the four-cylinder water-cooled power units on which the European auto industry by this time was increasingly standardising for the middle market. It has also been suggested that engine reliability suffered because many of the younger generation of car mechanics were not fully familiar with all the eccentricities of the Panhard power plants. Also familiar from a succession of post war Panhard saloons was the four-speed all-synchromesh gear box and the front-wheel-drive configuration. The wheels were independently suspended with telescopic shock absorbers and a torsion bar for the rear axle. The drum brakes with which the early 24s were delivered drew criticism for inadequate stopping power and excessive vibration: after 1965 the 24BT and 24CT received front disc brakes which addressed the problem. The interior was very well-appointed for this size of car, reflecting a determination not to let the car compete on price in the volume end of the small car market (already by now contested by the Citroën Ami). The Panhard 24 was one of the first cars to offer optional seat belts. The front seat backs were adjustable for rake and the seats were also – unusually at this time – adjustable for height. The passenger’s sun visor included a vanity mirror with its own light and the steering wheel was adjustable. The car also boasted an unusually elaborate heater. During 1964 and 1965 Panhard produced approximately 10,000 24s per year: 1966 saw that rate approximately halved. Still desperately short of production capacity, Citroën faced a choice between developing the Panhard 24 and perpetuating the Panhard brand, or using the capacity of the Ivry plant to increase further the output of the popular 2 CV vans. The vans won, and production of the Panhard 24 officially ended on 20 July 1967 after 28,651 had been built.

PEUGEOT

There were disappointingly few Peugeots here. Club Peugeot holds a huge annual event at Prescott in early July, and it would seem that the owners of many of these cars save their Prescott trip for that, and this time there seemed to be fewer examples of the marque present on either day than had been the case in the past.

Oldest Peugeot here was this Type 161 Quadrillete. This was introduced as a cheap, practical, very small economy car and was an important model for Peugeot, aimed below its other models with the aim of reversing the companies financial woes. First exhibited at the 1920 Brussels Motor Show, and available for sale in 1921. In order to put it into the minimal tax bracket (that of cyclecars, for whom the tax was 100 francs annually, the 4-cycle, 4-cylinder water-cooled engine displaced a mere 667 cc and produced 9.5 horsepower The car had a very lightweight body, below 77lbs. The vehicle’s width was so diminutive that the two seats were placed in tandem, rather than side by side, Later in 1921, the Type 161E was introduced with side-by-side seats, the passenger seat slightly back to allow the driver room to operate the pedals. The car retailed for 9900 francs with top, acetylene lights, and spare tire, or 9400 francs without. With fuel economy of up to 56mpg and a top speed of 37mph.

The 304 was introduced to the public at the Paris Motor Show in September 1969. Peugeot, which had always been a financially prudent company, saw a gap in the mid-size car market in France, Italy and the rest of Western Europe. By using the smaller 204’s midsection, development costs were minimised resulting in a higher profit margin because of the higher pricing structure in the larger, better equipped market. The 304’s main competitors on its home market came from Renault and Simca, with Citroen noticeably absent from this sector at the launch. The 304 was a success for Peugeot and was noted for several advanced features under its Pininfarina styled exterior. With its independent suspended front-wheel-drive drivetrain and disc brakes, it rode and handled better than most of its contemporaries, including some cars in higher price brackets. The chassis served Peugeot well and lasted for approximately 24 years adapted to derivative models. There was a distinct upmarket feel to the 304, its handsome lines were well suited to postwar Europe’s newly affluent middle classes who desired roomy, advanced and stylish cars to park in their driveways. At about this time the Autoroutes were opening up France and car manufacturers around Europe knew that any car launched hence, would need to add an ability to travel at high speeds, in relative comfort with sure-footed handling to its lineup in order to compete. The 304 fulfilled this brief and became one of the best-selling cars in its market segment., with 1,178.423 produced. Whilst the 204 Saloon and Estate models would continue until 1976, the Coupe and Convertible versions switched over to the 304 family in 1970 and at this point the 304 Cabriolet was officially imported to the UK in right hand drive form. Power was increased to 65 bhp with the new 1288cc engine and then the twin carb S option, introduced in 1972 and standardised in 1973 yielded 75 bhp. Production of the Cabriolet ceased in July 1975. In total around 18,000 examples of the 304 Cabriolet were built, around the same total as for the 204 Cabriolet, but only 836 of these were UK market right hand drive cars. These days, though, the Cabriolet is the 304 you are most likely to see, with an estimated 60 cars left in the country and indeed it was one of those which appeared at the event on the Sunday.

Peugeot launched their new “supermini”, the 205 in January 1983, just one day after Fiat had presented the Uno, one of the car’s principal rivals. It was an immediate hit, with smart styling and a range of engines which combined with sharp handling made it good to drive. 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. A cabriolet version of the 205, known as the CJ (or CT in France), was designed and partially assembled by Pininfarina of Italy. A CTi version, with the same plastic arches and wheels as the 1.6 GTI was also available. Only minor changes were made to the car in the next few years, with the most obvious visual change being the switch to grey bumpers and trim from black ones in 1990, along with revised lights. A new dashboard had been incorporated across the entire 205 range a couple of years before this. Sales of the GTI in the UK in the early 1990s were badly hit by soaring insurance premiums, brought about by high theft and ‘joyriding’ of cars of this sort. Increasingly stringent emissions regulations meant the 1.6 GTi went out of production in 1992, while the 1.9 litre was sold for a couple more years thanks to re-engineering of the engine to enable it to work properly with a catalytic converter, which dropped power to 122 bhp. Many of them had a hard life, but there are some nice original cars out there and people are starting to spend serious money in restoring them. It is the GTi models you see most often, but also here on the Sunday was an example of the limited edition Roland Garros models.

This is a rather special version of the 405, as it is a T16. This was launched in April 1993, a homologation special. It featured a 2.0 litre 16 valve turbocharged XU10J4TE engine with water cooled chargecooler, which generated 200 bhp on normal boost or 220 bhp for a 45 second overboost. The cars had four wheel drive with 53/47% power distribution and self regulating hydraulic rear axle. It was never built in a right hand drive model. 1,061 examples were built, 60 of them for the French Police.

RENAULT

The few Renault models that were present were mostly sporting ones.

The R12 Gordini was never officially sold in the UK. Launched in 1970, a year after the regular saloon model, the Gordini was equipped with the all-aluminium 1565 cc block from the R16 TS fitted with two double-barrel Weber carburettors producing 123 hp, a reinforced crankshaft, a five speed gearbox, ventilated disc brakes on the front wheels and normal disc brakes on the rear wheels, as well as a tuned suspension. The Gordini was able to reach 115 mph and was sold with paint schemes comprising a solid pastel colour (there were several to choose from) with double white stripes added on, the most famous combination being French Blue with stripes, as seen here. 2225 Renault 12 Gordinis were sold in 1971 but after that sales began a free fall. Renault stopped production of the Gordini in 1974 after 5188 had been sold.

The first “hot” Renault that achieved notable sales success in the UK was the one based on the first version of the R5. These cars were branded Alpine in their native France, but as that name was registered to Chrysler UK who had attached it to the family hatchback that was sold as the Simca 1307/1308 in Europe, Renault had to come up with an alternative. It was not hard. They chose Gordini and the model was launched in the UK in early 1979. As the market for hot hatches started to take off, and everyone seemed to be adding a Turbo to their cars, Renault followed suit and in 1982 created a more powerful pocket rocket with a R5 Gordini Turbo, or R5 Alpine Turbo for left hand drive markets, as is the case with the car seen here.

Eighteen months after the debut of the second generation R5, the “supercinq” as it is sometimes known, Renault produced their response to Peugeot’s 205 GTi, the R5 GT Turbo. Many were convinced that this was a better car, though it did have a reputation for unreliability and hot starting was quite an issue with fuel vaporising in the carburettor as the engine cooled. It used a modified four cylinder, eight-valve Cléon 1,397 cc engine, a pushrod unit dating back to the 1962 original (in 1,108 cc form). It was turbocharged with an air-cooled Garrett T2 turbocharger. Weighing a mere 850 kg (1,874 lb), and producing 113 hp, the GT Turbo had an excellent power-to-weight ratio, permitting it to accelerate from a standstill to 60 mph in 7.5 seconds. To differentiate it from the standard 5, it came with blocky plastic side skirts. Unfortunately, turbo lag was an issue, along with poor hot starting, and it was considered rather difficult to control. The same engine was used, with similar issues, in the Renault 9 and 11 Turbos. In 1987, the facelifted Phase II was launched. Major changes in the Phase II version included installing watercooling to the turbocharger, aiding the Phase I’s oil-cooled setup, which extended the life of the turbo. It also received a new ignition system which permitted it to rev 500 rpm higher. These changes boosted engine output up to over 118 hp. Externally, the car was revamped, with changes (including new bumpers and arches) that reduced the car’s drag coefficient from 0.36 to 0.35. Giving the Phase II a 0–100 km/h time of 7.5 secs. In 1989 the GT Turbo received a new interior, and in 1990 the special edition Raider model (available only in metallic blue, with different interior and wheels) was launched. In late 1991 the Renault 5 GT Turbo was discontinued, superseded by the Clio 16v and the Clio Williams. Survival rate of the R5 GT Turbo is low and few cars are particularly original, so this was nice one to behold.

You don’t see one of these very often, the Renault Sport Spider that was made in small quantities between 1996 and 1999. The idea for the Renault Spider was formulated in the early 1990s: in the midst of a revival after a difficult second half of the 1980s, Renault wanted a car to promote it as a sporting brand in much the way the Renault 5 Turbo had done a decade earlier. The Spider was intended to both serve as a racing car, in a one-make series organised by Renault, and as a road car. The first prototypes for Project W94, as it was known at the time, were completed in mid-1994 and a concept version was presented to the public at the Geneva Motor Show a year later. The concept featured several differences to the version that ultimately became the road car, most notably butterfly doors and the absence of a windshield. The car went on sale in early 1996, assembled at the Alpine factory in Dieppe. Designed from the outset as a driver’s car, the chassis was made of aluminium for its combination of low weight and substantial strength, while the actual bodywork is a plastic composite. Unusually, the Spider did not have a roof, either folding or hard-top. The gearbox and the engine were one unit transversally fixed in an oscillating hinge (an arrangement inspired by aeronautical design), which all but eradicated the interference of engine vibration with the chassis, and the pedals of the Spider were adjustable as well as the seat so the driver could achieve a better driving position. Power for the Spider came from a version of the 2-litre F7R engine from the Renault Megane Coupe, producing 148 hp. Either a windscreen or a small wind deflector was fitted, with the driver wearing a helmet in vehicles without a windscreen. Despite the promise of the design, the initial reviews were not particularly effusive and the car was expensive, so it struggled for sales. Around 1800 were made over a three year period.

Following its launch in early 1990, Renault 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 litre 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 lots of leather and wood, as well as power windows, locks, etcetera. The Baccara was renamed “Initiale” in 1997, in line with other Renaults, differing from the Baccara mainly in the wheel design. During 1991, a 1.8 L 16-valve engine producing 137 PS (also first seen in 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. This car formed the basis for the Clio Williams, the version of the first generation Clio that you most often see these days.

Following the R5 Turbo of the 1980s, Renault decided to have another go at something not dissimilar, with the Renault Clio V6 Renault Sport, to give the car its full and rather cumbersome name. This was a rear mid-engine, rear-wheel-drive layout hot hatch based on the Renault Clio launched in 2001, very much in the same style as the earlier mid-engined R5 Turbo models of the 1980s. Designed by Renault, the Phase 1 models were built by Tom Walkinshaw Racing and Phase 2 were designed and helped by Porsche and built by Renault Sport in Dieppe. The Clio V6 was based on the Clio Mk II, though it shared very few parts with that car. The 3.0 litre 60° V6 engine, sourced from the PSA group. It was the ES9J unit as used in the Peugeot 406, 407 and 607, and the Citroen C 5 and not the one that Renault used in the 3 litre Laguna engine, which had an PRV (Peugeot, Renault & Volvo) an earlier development 90° V based on a V8 that never was. For this car it was upgraded to around 227 bhp and placed in the middle of the vehicle where the more ordinary Clios have rear seats – making this car a two-seater hot hatch. In order to accommodate the radical change from front-engine, front-wheel drive hatchback to mid-engine, rear-wheel drive two-seater quasi-coupé, the car had to be extensively reworked structurally, leading to the Phase 1 version being some 300 kg (660 lb) heavier than the sportiest “regular” Clio, the 172 Cup. Due to this, even though the V6 model had significantly more power, it was not remarkably faster in a straight line accelerating to legal road speeds than the 172 Cup – accelerating to 60 mph in 6.2 seconds compared to the Cup’s 6.7 seconds – though its maximum speed was significantly higher at 146 mph compared to 138 mph. Opinions varied on the handling, but many found it very twitchy and the car soon a gained a reputation for breaking away with little warning. That was largely addressed by the Phase 2 cars which were launched in 2003. The front end took on the same sort of new design as had been applied to the regular models. The engine was upgraded, to make the Phase 2 Clio V6 the most powerful serial produced hot hatch in the world with 255 bhp exceeding the 247 bhp of the Alfa Romeo 147 GTA and the 222 bhp SEAT León Cupra R. Based on the Phase 1 engine, its extra performance was helped with assistance from Porsche and although the Phase 2 gained even more weight, the result was a a reduced 0–60 mph run at 5.9 seconds and a top speed of 153 mph. Though based on a utilitarian hatchback, the Clio V6 was not a practical family car. With an average fuel consumption of 24 mpg, this resulted in an empty fuel tank in just over 300 miles. The loss of the back seats and most of the boot space, due to the engine placement, resulted in a severe restriction in luggage space – there was only a small space in the front where the engine used to be, suitable for a holdall or week-end groceries, a small netted area behind the seats plus a small stash area under the tailgate. The enhanced steering made tight manoeuvring a little challenging, the turning circle being a rather awkward 13 m (42.7 ft) – around three car lengths – turning what might normally be a three-point turn into a five-point turn. Standard equipment in the car was good, this was not a stripped-out special, and it included rain sensing windscreen wipers, automatic headlights, air conditioning, and six speakers and CD changer. The Phase 2 Clio V6 retailed for £27,125 in the United Kingdom, until it was withdrawn from sale in 2005 coinciding with a facelift for the Clio range. The Phase 2 was received far more enthusiastically by the ever-critical UK press. These days there is no doubting the fact that this is a a modern classic.

Also here were some other sporting Renault models, with the second generation Megane RS joined by a second generation Twingo GT and the current Clio RS200.

Viewed as a modern classic these days, there were a couple of Avantime models present on the Sunday. Designed and manufactured by Matra, between 2001 and 2003, this one-box design without B-pillars was styled by Patrick Le Quément and was supposed to combine the space of an estate with the style of a 2+2 coupé. It was conceived by Philippe Guédon, head of the automotive division at Matra, who “believed that the children of Espace owners remained loyal to the car even after they had grown up and left home. As a result, the renowned estate was gaining a generation of new drivers.” It used the Espace as a base, which imposed some constraints, such as the central instrument display, but the marketeers turned that into something they called a part of the innovative character of the whole vehicle. The one-box design eliminated B-pillars and featured an aluminium structure, aluminium panels for the greenhouse and a full sunroof of strengthened heat-reflecting glass. The interior featured four seats each with built-in seatbelts and Bridge of Weir leather. To facilitate access to the rear seats, two long doors featured a double parallel-opening hinge system (marketed as “double-kinematic”) that maximized access with minimal outswing of the doors. Front side windows lowered automatically when either of the front seats folded forward to further facilitate entry to the rear two seats. Windows featured power-deployable sunshades, and the H-points of the rear two seats were higher than the forward two seats, giving the Avantime “theatre seating.” The luggage compartment featured a retaining system using retractable straps, and all Avantimes featured a two-tone look created by the exposed aluminium of the greenhouse. The windows and panoramic sunroof could open automatically via a single, headliner mounted control, to give the Avantime an ‘open air’ mode. The Avantime was first shown in February 1999 in concept form at a press launch in the Louvre, and one month later to the public at the Geneva Auto Show — where it was referred to as a “Coupéspace” — and went into production two years later, after the subsequent engineering of the pillarless roof to meet safety standards. The Avantime’s sales were poor. The car’s fortunes were not helped by the introduction of the Renault Vel Satis (another large, upmarket Renault) around the same time. When Matra decided to pull out of the automotive production business in 2003 (partly as a result of the financial loss incurred by the poor sales of the Avantime), Renault chose to discontinue the Avantime rather than move its production elsewhere. 8,557 were built from 2001 to 2003.

RENAULT-ALPINE

Launched in 1961 the A110, like previous road-going Alpines, used many Renault parts, including engines. While its predecessor the A108 was designed around Dauphine components, the A110 was updated to use R8 parts. Unlike the A108, which was available first as a cabriolet and only later as a coupé, the A110 was available first as a Berlinette and then as a cabriolet. The most obvious external difference with the A108 coupé was restyled rear bodywork. Done to accommodate the A110’s larger engine, this change gave the car a more aggressive look. Like the A108, the A110 featured a steel backbone chassis and a fibreglass body. The A110 was originally offered with 1.1 litre R8 Major or R8 Gordini engines. The Gordini engine delivered 95 hp. The A110 achieved most of its fame in the early 1970s as a successful rally car. After winning several rallies in France in the late 1960s with cast-iron R8 Gordini Cléon-Fonte engines the car was fitted with the aluminium-block Cléon-Alu from the Renault 16 TS. With two two-venturi Weber 45 carburettors, the TS engine delivered 125 hp. This allowed the production 1600S to reach a top speed of 210 km/h (130 mph). The long-wheelbase Alpine A108 2+2 Coupé ended its run and was replaced with a new, restyled 2+2 based on A110 engines and mechanicals called the A110 GT4. The car achieved international fame during the 1970–1972 seasons competing in the newly created International Championship for Manufacturers, winning several events around Europe, earning a reputation as one of the strongest rally cars of its time. Notable performances from the car included a victory in the 1971 Monte Carlo Rally with Swedish driver Ove Andersson. With the buy-out of Alpine by Renault complete, the International Championship was replaced by the World Rally Championship for 1973, at which time Renault elected to compete with the A110. With a team featuring Bernard Darniche, Jean-Pierre Nicolas and Jean-Luc Thérier as permanent drivers and “guest stars” like Jean-Claude Andruet (who won the 1973 Monte Carlo Rally) the A110 won most races where the works team was entered, making Alpine the first World Rally Champion. Later competition-spec A110s received engines of up to 1.8 litres. As well as being built at Alpine’s own Dieppe factory, versions of the A110 were built under license by various other vehicle manufacturers around the world. From 1965 to 1974 the car was produced in Mexico under the name “Dinalpin” by Diesel Nacional (DINA), who also produced Renault vehicles. From 1967 to 1969 the A110 was also produced in Bulgaria under the name “Bulgaralpine” by a partnership formed between SPC Metalhim and ETO Bulet, whose collaboration also resulted in the production of the Bulgarrenault. In 1974 the mid-engined Lancia Stratos, the first car designed specifically for rally racing, was operational and homologated. At the same time it was obvious that the rear-engined A110 was nearing the limits of its development potential. The adoption of fuel injection brought no performance increase. On some cars, a DOHC 16-valve head was fitted to the engine, but it proved unreliable. Chassis modification, like the use of an A310 double wishbone rear suspension, homologated with the A110 1600SC, also failed to increase performance. On the international stage the Stratos proved to be the “ultimate weapon”, making the A110, as well as many other rally cars, soon obsolete. The A110 is still seen in events such as Rallye Monte-Carlo Historique.

Also here was the more recent GTA, the first car launched by Alpine under Renault ownership (though Alpine had been affiliated with Renault for many years, with its earlier models using many Renault parts). It effectively updated the design of its predecessor, the Alpine A310, updating that car’s silhouette with modern design features like body-integrated bumpers and a triangular C pillar with large rear windshield. It used the PRV V6 engine in a rear-engined layout, with extensive use of Polyester plastics and fibreglass for the body panels making it considerably lighter and quicker than rivals such as the Porsche 944. It was one of the most aerodynamic cars of its time, the naturally aspirated version achieved a world record 0.28 drag coefficient in its class. The GTA name, used to denote the entire range of this generation, stood for “Grand Tourisme Alpine” but in most markets the car was marketed as the Renault Alpine V6 GT or as the Renault Alpine V6 Turbo. In Great Britain it was sold simply as the Renault GTA, Rather than being cast in a single piece as for the preceding A310, the new Alpine’s body was cast in a large number of small separate panels. This required a major overhaul of the Alpine plant, leaving only the sandblasting machinery intact. The car was also considerably more efficient to manufacture, with the time necessary to build a finished car dropping from 130 to 77 hours – still a long time, but acceptable for a small-scale specialty car. The PRV engine in the naturally aspirated model was identical to the version used in the Renault 25, a 2849 cc unit producing 160 hp. Also available was the smaller (2.5 litres) turbocharged model. The central backbone chassis (with outriggers for side impact protection) was built by Heuliez and then transferred to Dieppe – aside from the body, most of the car was subcontracted to various suppliers. At the time of introduction, daily production was ten cars. This soon dropped considerably, as the somewhat less than prestigious Renault had a hard time in the sports car marketplace. The average production for the six full years of production was just above 1000 per annum, or just above three per day. The first model introduced was the naturally aspirated V6 GT, which entered production in November 1984, although press photos had been released in September 1984. The car was first shown at the 1985 Amsterdam Rai, immediately after which it also went on sale. In July 1985 the Europa Cup model appeared; this limited edition model was intended for a single-make racing championship and 69 cars were built (54 in 1985 and 15 more in 1987). In September 1985 the turbo model followed, which increased the power of the PRV unit to 200 PS. At the 1986 Birmingham Show the right-hand-drive version was presented and UK sales, as the Renault GTA, commenced. In early 1987 a catalysed version appeared, with fifteen less horsepower. This meant that the Turbo could finally be sold in Switzerland, and later in other European countries such as Germany and the Netherlands when they adopted stricter legislation. The catalysed model had lower gearing in fourth and fifth gears, in order to somewhat mask its power deficit. In 1988 anti-lock brakes became available. For the 1989 model year the Mille Miles version appeared. With the non-catalysed engine, this model heralded a re-focus on the Alpine name. The Renault logo was gone from the car, with an alpine logo up front and a large “Alpine” print appearing between the taillights. However, as the name ‘Alpine’ could not be used in the UK the name Alpine was removed from cars destined for the UK; there was no large print at the back of these cars and a UK specific logo was fitted to the front of the car. The Mille Miles, a limited edition of 100 cars, also featured a special dark red metallic paintjob, polished aluminium wheels, and a large silver grey triangular stripe with the Alpine “A” across the left side of the front. In February 1990 the limited edition Le Mans arrived, this car had a more aggressive body kit with polyester wheel arch extensions and a one piece front with smaller headlights. Wheels were 3 piece BBS style produced by ACT, 8×16″ front & 10×17″ rear. Many of these changes were adopted for the succeeding A610. The regular V6 GT and V6 Turbo ended production during 1990, while the Le Mans version continued to be produced until February 1991. 325 of these were built in total. Also in 1990, Renault was forced to install the less powerful catalysed engine in cars destined for the home market, leading to grumbling amongst Alpine enthusiasts about the loss of power (down to 185 PS) while the 25 Turbo saloon actually gained power when it became catalysed. In response Danielson SA, a famous French tuner, created an upgraded version of the Le Mans with 210 PS.

The A610 looked very like its predecessor, the GTA, even though just about everything about the car was altered. There was a limited budget at the beginning of the development project so its appearance does not differ much from the GTA, and it looks particularly similar to the USA market GTA with its pop-up headlights (this was believed to be because the Alpine, when viewed head-on, strongly resembled mid-80s versions of the Ford Sierra; but the actual reason for that and for the batteries to be in the front was to better balance the weight between the front and the back). Nonetheless it was a completely different car, sharing only the windows with the GTA. The basic concepts of all Alpine cars are there, with the rear engine, and the steel backbone chassis that all Alpines since the A110 had had. The car was solely branded as an Alpine, as linking Alpine and Renault together (first as Alpine-Renault then Renault-Alpine) seemed to detract from the Alpine brand’s sporty image. The PRV engine remained, but it was enlarged to 3 litres, which enabled it to produce 250 PS (247 hp) and 260 lb/ft) of torque. The A610 Albertville 92 was presented in 1991 for the Olympic Games. 2 examples, and other Renault cars, were used to drive VIPs, before being sold as occasion. They had a specific colour (Gardenia White) and interior, but used the same engine and had the same technical specifications. The A610 Magny-Cours was created for the Williams-Renault Formula One victory in the French Grand Prix at Magny-Cours in July 1991. 31 cars were built, with specific colour and interior. The A610 did not result in an improvement in sales over the commercially disappointing GTA and the car was discontinued in 1995, despite acclaim from the motoring press, and approval from Top Gear.

SIGMA

A long defunct marque that I confess I had not heard of, Automobile Sigma Paris was based in the Parisian suburbs and they produced a small number of cars – fewer than 200 a year – between 1913 and 1928. The first cars, which were 8 HP and 20 HP models used the chassis from Malicet & Blin and the four cylinder engine from Ballot. After the first world war, for a short time there was a two cylinder model, but then the firm reverted to four cylinder units. In 1925 there was a model with an engine from CIME of 1494 cm³, as well as valveless engines from Ballot und S.C.A.P with capacities from 894 cm³ to 1614 cm³.

VENTURI

Just as had been the case in 2017, there only seemed to be a couple of examples of the Venturi here this year. Venturi Automobiles was a French-founded Monegasque-based automotive manufacturer, founded in 1984 by two engineers from Heuliez, Claude Poiraud and Gérard Godfroy as MVS (Manufacture de Voitures de Sport). The company’s sole purpose was to compete in the “Grand Tourisme” market. However, this plan was immediately faced with many challenges, among them was Venturi’s almost unknown existence outside of France, another was Venturi’s under-capitalized and under-staffed state. The first Venturi came out in 1984, and it was presented as the only “Grand Tourisme” French car capable of competing with the English Aston Martin, the Italian Ferrari, and the German Porsche. From the mid-1980s to the mid-1990s, they built around 750 examples of these very elegant mid-engined coupés and roadsters with turbocharged PRV engines and Renault gearboxes. Engine power ranged from 213 to 264 PS for the Venturi Atlantique series. A limited-edition 400 GTR was built for racing homologation requirements and later used in the 24 Hours of Le Mans. Venturi was also briefly involved with the Larrousse Formula One team. The team’s 1992 car, which bore the Venturi name, was designed and built by Venturi Larousse UK, a British company formerly known as Fomet 1, which had previously designed the 1991 Fondmetal Formula One cars. High-level competition has also brought fame to the brand. Stéphane Ratel, who would later found the FIA GT Championship, was at the origin of the Venturi Gentlemen Drivers Trophy, which gathered an impressive array of 75 drivers. Venturi has also won fame through its brilliant performances in the 24 Hours of Le Mans, particularly in 1993 with Christophe Dechavanne and Jacques Laffite on Venturi Jaccadi team, and in 1995 with Paul Belmondo racing on the 600 SLM. However, it is in the BPR Global GT Series races that Venturi established its pedigree defeating Porsche and Ferrari on several occasions. In 1994 in Dijon-Prenois, with Ferté and Neugarten on the 600 LM Jaccadi, at the 1000 km of Paris with Henri Pescarolo and Jean-Claude Basso on the 600 LM, and finally at the 4 Hours Spa race, once again with Michel Ferté and Michel Neugarten. The 400 GT remains one of the best performing French cars ever produced, and it is in fact the very first car in the world to have standard carbon brakes. True to that claim, the Atlantique 400 GT with a 408 hp V6 3.0 24v DOHC twin-turbo delivered excellent performance to put it on par with Ferraris of the early 90s. The 400 GT could hit 100 km/h in 4.7 seconds and a 291 km/h (181 mph) top speed, while the 300GT with a 314 PS V6 did 4.9 seconds to 100 km/h and went all the way to 171 mph (275 km/h). But the company always struggled for capital, and in 200, was declared bankrupt. That was not quite the end of the story, as in 2001, Monegasque Gildo Pallanca Pastor purchased Venturi, and decided to focus on electric-powered engines. This change of direction led to the limited-production Fétish. In December 2009, Venturi announced its acquisition of French motorcycle manufacturer Voxan. The acquisition would effectively allow Venturi to enter the motorcycle market. In August 2011, Venturi announced the creation of Venturi North America, based in Columbus, Ohio. Venturi North America was primarily created as a research and development centre, and as such, maintains a close working relationship with the Centre for Automotive Research.

ENTERTAINMENT

Although the cars are very much the stars of this event, they do not constitute the totality of the entertainment. Joining them are an array of side entertainments which range from the FlyPasts that take place in the early afternoon on each day, as well as a stage are in the Paddock which is used by an array of musicians and dancers, with the Can Can girls stopping most people in their tracks.

The stilt-walking “Flics” are always popular, and other theme-compliant entertainers included the classic French onion seller.

COMPETING ON THE HILL

As well as all the special displays, this remains a Hill Climb meet, and accordingly, there is a full program on both days, with around 200 cars entered to tested against the clock on the slopes. Further interest came from the fact that this was effectively two one-day meets, so the cars entered on the Saturday were completely different to those taking part on the Sunday. There were a variety of different classes on both days, with some focused on a single marque and others categorised according to the type of car and engine size. With all the other attractions, it is all too easy to neglect the Hill Climb aspects of an event like this, and that would be a pity, as there is plenty of interest in seeing people make their ascents on what is not as easy as it looks. On the Saturday morning, low-hanging mist on the hill meant that no cars were able to start until after 10:30am, some 90 minutes later than planned. In all the times I’ve been to Prescott, I’ve never experienced this before, but apparently whilst the mist was just mildly annoying at the foot of the hill, further up, you simply could not see from one marshall post to another. Eventually, though the ascents did get underway.

Present on both days were no fewer than 5 of the legendary ERA cars, which had a class all of their own, and a very splendid sight they made. Rather than banish them to the Upper Paddock, they took pride of place right in the middle of the Lower Paddock, probably a necessity anyway, given that they all have to be push-started to get them going. ERA was founded by Humphrey Cook, Raymond Mays, and Peter Berthon in November 1933 and established in Bourne, Lincolnshire, next to Eastgate House, the family home of Raymond Mays. Their ambition was to manufacture and campaign a team of single seater racing cars capable of upholding British prestige in Continental European racing. With the cost of competing in full Grand Prix racing prohibitive, ERA’s efforts were targeted at the smaller voiturette—1500cc supercharged—class of motor racing, the Formula 2 equivalent of the day. Humphrey Cook financed the operation—using the wealth from the family drapery business, Cook, Son & Co., of St Paul’s Churchyard, London. Peter Berthon was responsible for the overall design of the cars, while Raymond Mays became its principal driver, having already successfully raced several other makes including Vauxhall, Bugatti and Riley. A new chassis was conceived by British designer Reid Railton (who had also successfully designed the Bluebird land speed record cars for Malcolm Campbell) and was constructed by Thomson & Taylor at Brooklands. The engine was based on the well proven Riley 6-cylinder unit, albeit this was modified in a number of significant ways. A stronger forged crankshaft with a large centre Hyatt roller bearing was made and an entirely new aluminium cylinder head designed. The engine was supercharged using a bespoke supercharger designed by Murray Jamieson who had worked with Mays & Berthon on the White Riley. The ERA engine was designed around three capacities—a base 1500cc, an 1100cc and also was capable of being expanded up to 2000 cc. It ran on methanol and in its 1500cc form was capable of producing around 180–200bhp with in excess of 250–275bhp in 2000cc form. The panel-beating brothers George and Jack Gray hand-fashioned the new car’s single-seater bodywork, to a design credited to a Mr Piercy who had previously designed the bodywork for Malcolm Campbell’s ‘Bluebird’ record breaker. The unveiling of the first ERA—chassis R1A—to the press and public took place at Brooklands on 22 May 1934. After initial chassis handling problems, which required a number of modifications, soon ERA had a winning formula. By the end of the year ERAs had scored notable victories against many more established marques. In 1935, in a major race at the Nürburgring, ERAs took first, third, fourth and fifth places. Through the remainder of the decade, with drivers of the calibre of Dick Seaman in the team, ERA dominated voiturette racing.

Every car that was built thereafter is different, so the cars are all referred to by their unique name. Initially a series of four A-Type ERAs, R1A through R4A, were built and raced by the works team in 1934 and 1935. For the first privateers, a slightly revised B-Type chassis featuring a more reliable engine became available in 1935. 13 of these cars were built, R1B through R14B. Chassis number 13 was not used for superstitious reasons. Two of the cars became particularly famous, acquiring nicknames as well. That came about as two Siamese princes, Chula Chakrabongse and Bira Birabongse, ran their own team, operating from The White Mouse Garage. Prince Chula owned the team, and initially he bought the car now known as Romulus as a present for his cousin, Prince Bira, who was the team’s driver. In 1936, when another car was acquired, they named R2B, the first car they had, “Romulus” and the R5B, the new one, “Remus” after the Roman Twins. Both were painted in their team colours of light blue with yellow wheels, a livery they wear to this day. Prince Bira won the Albi Grand Prix in what was otherwise an unsuccessful year in terms of the high standards expected by the “White Mouse” team. It is probably true to say that this duo are the most famous of all the ERAs. Whilst Romulus still lives in Thailand, “Remus” is resident in the UK. and can be seen in action quite frequently.

R4D is the last development of this classic voiturette racing car, the only D-Type ever built. Originating as R4B in 1935, the car was rebuilt as a C-Type by modifying the front end of the chassis frame to accommodate independent Porsche-type torsion bar front suspension. Over the winter of 1937-38 the car was given a completely new fully boxed frame, and was designated R4D. This was the first ERA to be fitted with a Zoller supercharger (in 1935), and R4D accumulated a formidable competition record in its various guises, finally being purchased from the works by Raymond Mays, and running as a privately entered car in 1939. Mays set numerous pre-war records in R4D, including Prescott and Shelsley Walsh hill climbs, Brighton Sprints and Brooklands Mountain Circuit. Mays describes his history with the car in his book Split Second. After World War II R4D continued in active competition, but the demands on Mays’s time created by the evolving BRM project meant he competed less frequently. In 1952 Mays sold R4D to Ron Flockhart. In 1953 Flockhart had a phenomenally successful season, winning the Bo’ness hill climb in a record setting 33.82 seconds. The car was featured on the cover of Autosport magazine. This success led to his joining the BRM team as a works driver, and later successes at Le Mans and elsewhere. In 1954 Ken Wharton purchased R4D from Flockhart and used the car to win the RAC Hill Climb Championship. In 1955 he used R4D and his Cooper to finish equal first in the hill climb championship with Tony Marsh. Since Wharton was a multiple previous winner, the RAC awarded the championship to newcomer Marsh. An achievement of R4D in the post-war era is that it has won the Brighton Speed Trials seven times, driven by Raymond Mays four times and Ken Wharton three times, more wins than any other car at this event. The owner after Ken Wharton was the pseudonymous “T. Dryver,” creator of the aero-engined De Havilland-M.G. Special. He raced the ERA in the Brighton Speed Trials in 1957 but his chance of achieving fastest-time-of-the-day was spoiled by rain.From the mid-fifties onward, the car had a variety of owners, but achieved notable success in historic racing in the hands of Neil Corner and Willie Green (the latter driving for Anthony Bamford). R4D rose to pre-eminence again in the hands of Anthony Mayman, achieving many successes and setting many pre-war records at various venues. In recent years the car has been owned and driven by James Baxter and Mac Hulbert, and continues to be one of the most successful pre-war racing cars still active in competition, having set new pre-war records at numerous venues. That trend continued, with Baxter winning the class at this event.

R4A was built in 1935 as the first ERA customer car and run by the team for Pat Fairfield. Then white painted, R4A was fitted with a 1,100cc. supercharged engine. Fairfield had wins in the Mannin Beg on the Isle of Man, the Nuffield Trophy at Donington Park and the Dieppe Grand Prix Voiturette race. In early 1936 Fairfield ran the car independently including a third place in his adopted South Africa. Back in England a 1,500cc. engine was fitted. Results included second in the British Empire Trophy at Donington Park. Later in 1936 R4A returned to works support and Fairfield scored a second at the Picardy Grand Prix. In 1937 R4A was used by Fairfield as a works driver. three wins in South Africa and a third at Donington Park. The 1938 R4A reverted to a 1,100cc. engine and was sold to Norman Wilson who raced in his native South African and elsewhere. Wilson lost his life serving in the South African Air Force during the Second World War. Reg Parnell took over R4A and after the war Bob and Joan Gerard gave the car a successful career in hill climbs. These days it is driven by Nick Topliss, and it is often to be seen at venues like Prescott and Shelsley. Nick came second in his class at this event, but was a full second and a half behind the class leader, in another ERA.

Anthony J. Merrick prepared and raced R1A until its then owner sold the car. Being without a car the resourceful Merrick shuffled his stock of genuine ERA parts and came up with AJM1. The 1980s brand new 1930s car is said to be an 80% original ERA B-type car using a 1.5litre engine and light green early works colour scheme, though it has since been repainted in red.

This one is R12C, a car whose complete history gets a bit tricky. The story starts with R12B, which was a 1936 works car with a 2 litre engine and in the works black colour scheme. Raymond Mays successfully hill climbed R12B at Shelsley Walsh and raced at Brooklands. In 1937, the works rebuilt R12B to C-type specification with a 1.5litre engine and a long-range fuel tank. Pat Fairfield was to be the main works driver of R12B/C for the year. After a win with R12B/C at Crystal Palace and Donington Park, Fairfield was killed in the Le Mans 24-hour sportscar race. R12B/C was successfully used by other drivers during the rest of the year. The Albi Grand Prix was won by Humphrey Cook/ Raymond Mays. The Berne Grand Prix, Switzerland and the JCC 200 mile race were won Arthur Dobson. The Brooklands Siam Trophy was won by Raymond Mays. In 1938 the car was sold to Prince Chula for “B.Bira” to drive. R12B/C was painted with a light blue body and yellow chassis and wheels of the “White Mouse” stable and made the national racing colours of Siam (Thailand). In the tradition of “White Mouse” cars, following R2B “Romulus” and R5B “Remus” R12C was named “Hanuman”. “B.Bira” used R12C to gain wins at Brooklands, Donington Park and Cork, Ireland. In 1939, “B.Bira” raced R12B/C to win the Nuffield Trophy at Donington Park. Somewhat less successfully Bira crashed R12B/C at in practice for the Coupe de la Commission Sportive at Rheims, France. Bira suffered only minor injuries but the car was badly damaged, and it is what happened next which makes history a bit more complex, for as happens with many well raced cars repair and modification keeps cars on the track but complicates their history. R12B had been modified to C-type spec. and was now repaired with the only available chassis frame (a B-type, probably from R8B left over from its rebuild up to C-type spec.) so that the cars code letter reverted to “R12B” and its name was moved on to “Hanuman II”. The spare parts from sorting out the mess were set aside – see R12C “Hanuman”, below, for what happened to them. In 1982, respected car restorer and ERA expert W.R.G. “Bill” Morris rebuilt the wreckage left over from the R12B/C “Hanuman” crash and rebuild, useing the original mangled chassis frame from R12B/C, other R12B/C parts and other period parts with any gaps filled by remanufactured parts. The result was “R12C – Hanuman” a C-type ERA as if the 1939 Rheims accident had not happened. As at the time Bill Morris owned both “R12B – Hanuman II” and “R12C – Hanuman” the question of whether one or the other or both or neither was “genuine” was a matter he would have had to fight out with himself! These days R12C is owned by Terry Crabb, and it is a regular sight at Prescott and Shelsley (and doubtless other places that I’ve not yet visited).

The more modern E-Type ERA appeared just before the Second World War but was not fully developed. The Second World War brought a halt to motor racing in Europe, and the team’s Bourne site was sold to the Bus operator Delaine who occupied adjacent premises. The original building is still in use today by Delaine as an office block. By the time racing resumed in the late 1940s Berthon and Mays had moved on to the British Racing Motors (BRM) project. This car was driven by Duncan Ricketts, and posted a respectable time, though it was the slowest of the ERAs in the Over 1500cc Racing Car Class.

Saturday also saw a round of the Ferrari Hill Climb Challenge, and there was a varied field of entrants here, almost all of them V8 engined cars, which ranged from the 308 GT/4 Dino through various generations of the 2 seater models from the 308 GTB to the more recent 458 Italia and there was also a 250GT SWB.

A number of Italian cars were competing. These included an Alfa 1750 Berlina, the duo of Abarths owned by local man Pete Fletcher, the Alfa GT Junior and a Fiat X1/9.

I’ve seen this car a number of times before, at various venues. Although it has the silhouette of a Fiat 500 (sort of!), under the lightweight body lurks a tuned BMC A series engine.

The Type 13 was the first real Bugatti car. The Bugatti automobile had been prototyped as the Type 10 in Ettore Bugatti’s basement in 1908 and 1909 while he was chief engineer at Deutz Gasmotoren Fabrik in Cologne, Germany. The Type 10 used a monobloc straight-four engine of Ettore’s own design. it was an overhead cam unit with 2 valves per cylinder, highly advanced for the time. A very-undersquare design, it had a 60 mm bore and 100 mm stroke for a total of 1131 cc. This was attached to an open roadster body with solid axles front and rear. Leaf springs suspended the front with no suspension at all in the rear. Cables operated rear drum brakes. On ending his contract with Deutz, Ettore loaded his family into the Type 10 and headed to the Alsace region, then still part of the German Empire looking for a factory to begin producing cars of his own. After World War I, Alsace became a part of France again, of course. The prototype car was preserved and nicknamed “la baignoire” (“the bathtub”) by the staff at Molsheim in later years due to its shape. Ettore restored it in 1939 and repainted it an orange-red color, earning it a new nickname, “le homard” (“the lobster”). It was moved to Bordeaux for the duration of World War II and remained there for decades before falling into private ownership. Today, the car is in California in the hands of a private collector. Upon starting operations at his new factory in Molsheim, Bugatti refined his light shaft-driven car into the Type 13 racer. This included boring the engine out to 65 mm for a total of 1368 cc. A major advance was the 4-valve head Bugatti designed — one of the first of its type ever conceived. Power output with dual Zenith Carburettors reached 30 hp at 4500 rpm, more than adequate for the 660 lb (300 kg) car. Leaf springs were now fitted all around, and the car rode on a roughly 79 in wheelbase. The new company produced five examples in 1910, and entered the French Grand Prix at Le Mans in 1911. The tiny Bugatti looked out of place at the race, but calmly took second place after seven hours of racing. World War I caused production to halt in the disputed region. Ettore took two completed Type 13 cars with him to Milan for the duration of the war, leaving the parts for three more buried near the factory. After the war, Bugatti returned, unearthed the parts, and prepared five Type 13s for racing. By the time production of the model ceased in 1920, 435 examples had been produced and the model had also formed the basis of the later Types 15, 17, 22, and 23. Most of the road cars used an 8-valve engine, though five Type 13 racers had 16-valve heads, one of the first ever produced. The road cars became known as “pur-sang” (“thoroughbred”) in keeping with Ettore Bugatti’s feelings for his designs. The car was brought back after World War I with multi-valve engines to bring fame to the marque at Brescia, which is why the model is often referred to as a Brescia Bugatti. The production “Brescia Tourer” also brought in much-needed cash.

This rather splendid 1936 Maserati 6CM suffered a mechanical failure in practice and spent the rest of the weekend parked up by the Club House.

There was a huge saloon car class and an equally large sports car class, which featured a number of Ginetta models as well as varied a set of cars as the Triumph TR7 and VW-Porsche 914. 30 entrants competed in the Classic Marques class, all running on a scratch basis, which was won by the Cosworth-powered Ginetta of Graham Beale, with a Porsche Boxster the runner-up.

There were two classes of Austin Sevens contesting the Bert Hadley championship for track and road cars, with Ian Bennett winning the first category and Colin Danks the latter with a new class record of 57.09 seconds.

There was a completely different field competing on the Sunday. First car to catch my eye was this Ford Anglia Allardette. During the Fifties Allard prospered, especially in America, where the cars were a key part of the revival of sports car racing. Yet by the end of the decade, with the ascendancy of Jaguar, Triumph and MG, Allard and his cars were bypassed. Sydney’s last flings were to tune up the Ford Anglia and to race dragsters of his own design. With the Allard company becoming main agents for the Shorrock Supercharger, Allard developed a modified version of the Ford Anglia 105 and 109E Anglia, called the ‘Allardette’, which was produced in sufficient numbers to be homologated to compete in the the modified saloon class in International rallies. As a rally car the Ford Anglia wasn’t the fastest machine by any means, but it was reliable. In 1963 the season began with Sydney Allard winning his class on the Monte Carlo Rally with son Alan second, both driving the infamous Allardettes. On the Safari Rally across Africa an Anglia finished second out of just seven finishers. To improve performance, the Allardette was a Shorrock Supercharged Anglia with disc front brakes and suspension modifications which saw figures up to 68 bhp or so (seven more than the Cooper-Mini of its time), along with studded tyres and a determined driver this little car could really achieve some astonishing results.

More recent French cars competing in a handicapped French Car Class included a Matra Bagheera and the Renault-Alpine A110.

This aero-engined 1907 Berliet Racer is a Prescott regular and never ceases to impress, with its open engine, so you can see the valves lifting up and down. Marius Berliet left his hat band factory to start building engines and then complete cars in a small shed in Lyon in 1894. At first they were simple single-cylinder creations, adding a two cylinder model in 1900 then four cylinder cars after taking over Audibert et Lavirotte in 1902. By 1907, Berliet had a 9500cc six clyinder car, a racing version of which competed in the 1908 Targa Florio. During World War One, Berliet planned a lorry department for the French Army, and as commercial production expanded, interest in building cars tailed off. By 1933 only two models were listed and the final 2.0 Berliet Dauphine was made in 1939. After the Second World War, Berliet built only trucks and buses. The company was taken over by Citroen in 1967. then ten years later it was sold to Renault and merged with Saviem. The badge disappeared in 1978. This car was created from a kit of parts that consisted of a bent chassis from a Berliet that had been either a heavy car or a light commercial vehicle, accompanied by its gearbox, axles and steering. From the number stamped on it, the chassis could be dated to sometime between 1904 and 1910. John Dennis, who created this car chose 1907, fitting for the car’s debut at the Brooklands Centenary celebrations in 2007. It was not an easy task to create this wonderful machine. The straightened chassis need 132 unwanted holes welding up. Taking styling cues from the racing Berliet that competed in the 1908 Targa Florio, it was made in the traditional way with aluminium panels over an ash frame. The rear half is attached by three Anti-Loose tailgate fasteners, and can be removed in under a minute. The radiator was made to be narrow enough to sit between the chassis rails and the fact that the bonnet only partially covers the engine adds to the drama. And that engine is an 8219cc alloy Curtis OX-5 V8 aero engine. It is not big on revs, but has oodles of torque. the 105 bhp it generates is at just 1800rpm. There is a four speed transmission connected to the rear wheels by a chain drive, and the car can travel between 70 and 100 mph, depending on the gearing, if you are feeling brave enough. And don’t forget, there are only brakes on the rear wheels.

Other vintage cars competing included an Alvis and a Delahaye 135M and the rather ungainly looking Hotchkiss 686GS Modane.

The Paul Matty Lotus Sports Car class had a very varied field with entrants ranging from the Elise and Elan to cars designed for the track which included Types 22, 23 and 69.

Other competitors included a Riley special and an Allard J2.

LUNCHTIME CAVALCADE

During the lunchtime break, on both days, there were cavalcades of the majority of the cars that had been parked up in the Paddock, and this made for an arresting sight as the cars headed up the hill. On the Saturday, the hill was dry but on he Sunday, the late morning downpour was still working its away from the venue, meaning a very wet surface and a lot of spray even at modest speeds.

BONHAMS AUCTION

Once again renowned Auction House Bonhams had a presence here, with a number of cars on show in advance of their planned auction at events later in the year. A couple of them caught my eye.

This fabulous car is a 1970 Aston DB6 Volante Mark 2. The DB6 differed principally from its immediate predecessor by having a longer wheelbase. This meant more room for rear passengers, making the DB6 more of a family man’s car and helping it sell better than the earlier models in the series. The bodywork was distinctive, with a slightly higher roofline than the DB4 and DB5, and featured an aerodynamically efficient abbreviated ‘Kamm’ tail. Introduced at the same time as the saloon, the DB6 Volante convertible marked the first occasion that this evocative name had been applied to a soft-top Aston Martin. The stylish Volante offered four-seat accommodation and was generously appointed with leather upholstery, deep-pile carpets and an electrically operated hood. After 37 Volantes had been completed on the shorter-wheelbase chassis of the outgoing DB5, the convertible model adopted the DB6 chassis in 1966 and was first displayed in this form at that year’s London Motor Show in October. In the summer of 1969 the Mk2 DB6 was announced in saloon and convertible versions. Distinguishable by its flared wheelarches and DBS wheels, the DB6 Mk2 came with power-assisted steering as standard and could be ordered with AE Brico electronic fuel injection. When DB6 production ceased in 1970, a total of 1,575 saloons had been made, plus 178 of the long-wheelbase Volante convertibles (140 Mk1 versions and only 38 Mk2s). One of only 38 DB6 Mk2 Volantes made, this beautiful right-hand drive example was sold new to one R B Hinton, London in March 1970. In June 1973, second owner Edward Glikstein of Coventry bought the DB6, which five years later passed via H R Owen to the next owner, A H Faridany of London. Shortly thereafter, in March 1979, the car was sold to its fourth owner, J E Beckett of Manchester, from whom it was purchased by the current vendor in August 1983 (receipt on file). By this time, the DB6 had been repainted by Aston Martin Lagonda Ltd from Azure Blue to Light Sky Blue, the work being carried out between March and July 1977. AML’s bills for the restoration are on file (totalling £8,300). In 1991, the Volante was restored again, on this occasion by HB Developments of Guildford, who are shown to have spent 1,000 man-hours on the refurbishment. Between 1996 and 2000, the car was serviced annually by HWM, Walton-on-Thames. In 2001, Aston Martin specialists Trinity Engineering carried out a rebuild of the engine top end, plus suspension, etc as evidenced by bills on file totalling £21,000. Trinity Engineering have serviced and maintained it since, their bills for the period 2001 to 2016 totalling circa £58,000. Significant works carried out during this period include installing new chassis outriggers and new brakes in 2009, and fitting new wheels in 2016. In addition to the aforementioned extensive invoices, the Aston also comes with every MoT certificate from 1979 to 2018 confirming the 50,560 miles covered from new. MoT’d to June 2019, it is offered with a copy old-style logbook and V5 registration document. This is the first time the car has been available for sale for 35 years.

This is a Bugatti Type 44 Tourer with a Harrington body . By the early 1930s Ettore Bugatti had established an unrivalled reputation for building cars with outstanding performance on road or track; the world’s greatest racing drivers enjoying countless successes aboard the Molsheim factory’s products and often choosing them for their everyday transport. Considered the finest touring Bugatti of the 1920s, the Type 44 was introduced towards the end of 1927 and lasted in production until 1930. 1,095 were built, of which around 10 percent survive today. The model was powered by Bugatti’s classic single-overhead-cam straight eight engine, one of the most famous automobile power units of all time. Because of its lengthy run of success, Ettore Bugatti remained committed to his single-cam design, only adopting the double-overhead-camshaft method of valve actuation, after much prompting by his eldest son Jean, on the Type 50 of 1930. The Type 44’s twin-block, three-valves-per-cylinder, single-plug engine displaced 2,991cc and produced approximately 80bhp, an output good enough for a top speed of over 75mph. Driving via a four-speed gate-change gearbox, this superb power-plant was housed in Bugatti’s familiar vintage chassis featuring a circular-section front axle and rear quarter elliptic springing. This Type 44, chassis number ‘44721’ fitted with engine number ‘435’, was originally ordered by London-based Bugatti agent, Colonel Sorel. It is one of just 12 Bugattis of various types ordered by the Colonel in October 1928, and was delivered on 15 November that same year. The car was delivered to London in rolling chassis form and was then despatched for bodying to coachbuilder Thomas Harrington Ltd, at that time based in Brighton, Sussex. Founded in 1897 and known to have been bodying cars as early as 1905, Harrington had become a major producer of motor coach bodies while keeping up the car-bodying side of its business, concentrating on high-quality European makes, Bugatti included. Like many of Harrington’s car bodies, this Type 44’s four-door tourer was constructed using the Weymann system. This type of body construction took its name from its inventor – Charles Terres Weymann – a Frenchman whose background in aviation led to him using a lightweight wooden framework for motor bodies, which was held together by steel plates and covered with fabric. The principal advantage of the Weymann system was its inherent flexibility, which meant that it was free of the squeaks, creaks, rattles and cracks that hitherto had affected all traditional coachbuilt bodies. It was an immediate success; as well as making bodies at its factories in France and (later) England, Weymann licensed production to numerous independent coachbuilders, Harrington among them. Research indicates that Harrington produced two variants on this Tourer theme; one where the spare is on the wing, the other – such as this example – where the wheel is rear mounted and therefore aesthetically more desirable. Originally finished in black, with red wire wheels, brown leather interior, and tan soft-top, ‘44721’ was purchased new in England by an American, Mr Henry B du Pont of Delaware, a member of the eponymous chemicals manufacturing dynasty. Twenty-nine years old when he purchased the Bugatti, he later became a vice president of the DuPont company while at the same time serving as a board member of General Motors. Mr du Pont used the Bugatti for a honeymoon trip around Europe with his new wife, Margaret Wilson Lewis. The car’s UK registration was ‘UF 3321’. Remarkably, Henry du Pont kept his Bugatti from some 34 years, surely a mark of the fond memories he had of the Type 44, only parting with the car to a family member in 1962, selling to his relative, a Mr John Riegel of Montchamin, Delaware. Within a year, the Bugatti had passed to yet another member of the family, Richard Riegel, and later in the mid-1960s was offered for sale by The Vintage Car Store, New York. In 1969, Mr Nelson Deedle bought the car, which in 1973 found a new home with one F E Davis. Offered for sale at a London auction in July 1975, the Bugatti was purchased on one R Bell, while its next owner, from 1976, was The Honourable G H Wilson of Newton Valance, Hampshire. Wilson later sold ‘44721’ to Graham Little, author of an unpublished ‘Who’s Who’ of Bugatti people, and in 1985 the car changed hands yet again, passing to Geoffrey Perfect. Offered for sale at an auction in Birmingham in 1990, the Bugatti was purchased by well-known collector Peter Groh, who in turn sold it to respected Dutch dealer, Jaap Braam Ruben. Offered for sale by Braam Ruben at a Paris auction in June 1991, the Type 44 was purchased by Jean Paul Mouton, who registered it in France as ‘853 KAH 75’. Mr Mouton owned the Bugatti for the next 24 years, displaying it at the Centre Internationale de l’Automobile in Pantin, Paris between December 1992 and March 1993, and taking part in several events including the Bugatti-Ferrari meeting in Beaune in 2004 and also a Louis Vuitton backed rally in China. More recently, in 2016, the Type 44 was exhibited to much admiration at the prestigious Zoute Grand Prix concours in Belgium. Throughout all this time and these many changes of owner, this Type 44 has remained outstandingly original, the only significant change in specification being the replacement of the body’s original fabric covering with a more durable modern material. Well-known in Bugatti circles, ‘44721’ is listed in four Bugatti Registers (two by Hugh Conway and two by David Sewell) as well as in Barrie Price’s book, ‘The 8-Cylinder Touring Cars’.

THE ORCHARD and THE PUBLIC CAR PARKS

A limited number of non-theme cars, mostly those affiliated to a Car Club, are able to park in the Orchard, and everything else is routed either to the to the slopes that overlook the hill (for those who are brave and have decent traction!) or to the rather bumpy field next door which serves as the main public car park. There’s always plenty of interest to be found by wandering among the lines of parked cars. On this occasion, I did not make as many sorties as I sometimes do, to see what I could find across the totality of the event, but even so these were notable cars that attracted the photographer in me, for reason of their rarity or interest level.

ALVIS

Conceived in 1956, this design was launched as the TD21, and it 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.

ASTON MARTIN

This is a Mark II. Unveiled at the 1934 Motor Show, the Mark II was in effect an improved Le Mans model. The 1½ litre engine could now produce 73bhp, the chassis was somewhat stiffer and the road holding was also improved. Again two chassis lengths were available, long for saloons, tourers and drophead coupes, short for 2 and 2/4 seater sports cars. The short chassis from the Mark II together with a modified engine and lightweight 2 seater body was used as Team cars and ultimately became the Ulster.

GENTRY

The Gentry is a British kit car styled to resemble a MG TF. It was offered for sale to the public by RMB Motors of Barwell, Leicestershire from 1974, the original prototype having been completed at the end of 1973. 15 kits were supplied in this first year, rising to over 80 per year produced in 1979. The company was formed by Roger Blockley who had worked for the Triumph Car Company. The car was built on the chassis of a Triumph Herald using an angle iron framework which supported aluminium over marine ply body tub panels, aluminium bonnet, engine bay sides and ‘fuel tank’, with fibreglass wings and doors. The radiator grille was frequently sourced from an MG Magnette ZA/ZB. From 1975 a version was made to fit the Triumph Spitfire chassis and running gear, but only 2 of this variant were ever produced. The rights to the car were sold in 1989 to S.P. Motors founded by Gentry owners, Mick Sinclair and Terry Phillips and they developed a Ford-based version of the car. Mick Sinclair left the company in 1997 and the name changed to TP Motors who modified the design to take parts from the Ford Sierra. In 2001 the factory unit was sold and the company closed selling the design in 2002 to the Vintage Motor Car Company based in Doncaster, Yorkshire but few if any cars were made. In 2008 the design moved to new owners Geoff and Ellen Beston who formed the Gentry Car Company based in Nuneaton and restarted production. The company and all rights were sold on again in early 2019 and The Gentry Motor Car Company Ltd was reformed. The Gentry is back in production and the new owners, based in Coventry, are actively looking at additional engine options to complement the original whilst maintaining the MG / Triumph heritage. 2019 marks the 45th anniversary of the car. The owner told me that there are believed to be around 200 of them on UK roads and they have over 300 members in the Owners Club.

JAGUAR

I spotted this C Type parked up by the Bugatti Trust late on the Sunday. It is not actually an original C Type, but a recreation built and first registered in 1981. using a Jaguar chassis, but with a 3.4 litre Xk engine.

From the top of the F Type range is this SVR model. A fabulous car.

LAGONDA

There were a couple of classic 1930s Lagonda models here. First of these is an M45 Tourer from 1933., one of 410 built, with a 4.5 litre engine.

The second one is slightly earlier, dating from 1932 and has a much smaller engine, just 1632cc.

MASERATI

This 3200 GT was in the public car park, which was a bit of a shame, as it would have been better to have it in the Orchard with the other Maserati.

McLAREN

These cars were actually in the Paddock. On the Saturday, well known former hill climber par excellence, Joy Rainey, had her recently acquired 570S parked up. Not only is this a splendid car, given her need for easy access to unload her mobility scooter close to the centre of action, it seemed fair enough that her car be the sort of “odd one out” among the Italian and French cars.

On the Sunday there were several more McLarens here, with a couple of examples of the more recent 720S model as well as the earlier MP4 12C.

MERCEDES-AMG

The AMG GT sits at the top of the range, and was conceived to be a direct competitor to Porsche’s 911. The initial Coupe was joined by a Roadster and since then a number of more potent versions have been added to the range, such that there are now no fewer than 16 different versions of the car that have been produced.

MORGAN

There were a couple of 3 wheeler Morgans here. What many will think of as the traditional 3 wheeler from the 20s and 30s was joined by the slightly more modern looking F-4 Super. This was introduced in 1933 at the Olympia Motor Cycle Show. The F-4 had a new pressed-steel chassis the four-cylinder Ford Sidevalve engine used in the Model Y, and a four-seat body. The F-4 was supplemented by the two-seat F-2 in 1935 and the more sporting F Super, with cycle-type wings and louvred bonnet tops, in 1937. Production of the Ford-engined three-wheelers continued until 1952.

NISSAN/DATSUN

This Bluebird 1.8 GL Estate is a regular at Prescott, as it belongs to one of the marshalls. This rare survivor dates from the time when the Japanese were on a strict 4 year model cycle with new versions arriving frequently. This generation of the Bluebird, sold in 4 door saloon, 2 door coupe and practical 5 door estate was launched in 1980 and ran for four years. It had far more restrained styling than its rather oriental looking predecessor and was popular when new for its value for money, good equipment levels and excellent reliability, even if there were cars that were a bit more exciting to drive. few have survived, so it is always good to see this one.

PORSCHE

There were plenty of examples of the evergreen 911 here ranging from an early car to examples of the 991 generation, including the GT3.

Among them was the even more special 991 GT3 RS. The RS version of the 991 GT3 was launched at the 2015 Geneva Motor Show in 2015, and featured in first drive articles in the press a few weeks later, with cars reaching the UK in the summer and another series of universally positive articles duly appearing. It had very big shoes to fill, as the 997 GT3 RS model was rated by everyone lucky enough to get behind the wheel, where the combination of extra power and reduced weight made it even better to drive than the standard non-RS version of the car. A slightly different approach was taken here, with the result weighing just 10kg less than the GT3. It is based on the extra wide body of the 991 Turbo. Compared to the 991 GT3, the front wings are now equipped with louvres above the wheels and the rear wings now include Turbo-like intakes, rather than an intake below the rear wing. The roof is made from magnesium a bonnet, whilst the front wings, rear deck and rear spoiler all in carbonfibre-reinforced plastic (CFRP), the rear apron is in a new polyurethane-carbonfibre polymer and polycarbonate glazing is used for the side and rear windows. The wider body allows the RS’s axle tracks to grow, to the point where the rear track is some 72mm wider than that of a standard 3.4-litre Carrera and the tyres are the widest yet to be fitted to a road-going 911. A long-throw crankshaft made of extra-pure tempered steel delivers the 4mm of added piston stroke necessary to take the GT3’s 3.8-litre flat six out to 3996cc . The engine also uses a new induction system, breathing through the lateral air intakes of the Turbo’s body rather than through the rear deck cover like every other 911. This gives more ram-air effect for the engine and makes more power available at high speeds. It results in an output of 500 bhp and 339 lb/ft of torque. A titanium exhaust also saves weight. The suspension has been updated and retuned, with more rigid ball-jointed mountings and helper springs fitted at the rear, while Porsche’s optional carbon-ceramic brakes get a new outer friction layer. Which is to say nothing of the RS’s biggest advancement over any other 911: downforce. The rear wing makes up to 220kg of it, while the front spoiler and body profile generates up to 110kg. In both respects, that’s double the downforce of the old 997 GT3 RS 4.0. The transmission is PDK only. The result is a 0-62 mph time of just 3.3 seconds, some 0.6 seconds quicker than the 997 GT3 RS 4.0 and 0-124 mph (0-200kmh) in 10.9 seconds. The 991 GT3 RS also comes with functions such as declutching by “paddle neutral” — comparable to pressing the clutch with a conventional manual gearbox –- and Pit Speed limiter button. As with the 991 GT3, there is rear-axle steering and Porsche Torque Vectoring Plus with fully variable rear axle differential lock. The Nürburgring Nordschleife time is 7 minutes and 20 seconds. The interior includes full bucket seats (based on the carbon seats of the 918 Spyder), carbon-fibre inserts, lightweight door handles and the Club Sport Package as standard (a bolted-on roll cage behind the front seats, preparation for a battery master switch, and a six-point safety harness for the driver and fire extinguisher with mounting bracket). Needless to say, the car was an instant sell out, even at a starting price of £131,296.

The Cayman GT4, much rumoured for some time, 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. With production limited – each Porsche Centre in the UK was allocated just 10 cars – the car sold out long before any reviews were published, but when they came, it was quite clear that Porsche had produced an absolutely cracking car. Porsche relented and build considerably more cars than they originally declared was their intent.

The 968 was launched in 1992, renamed from the 944, as so little of the outgoing S2 remained unaltered. In addition to the numerous mechanical upgrades, the new model also received significantly evolved styling both inside and out, with a more modern, streamlined look and more standard luxury than on the 944. Production was moved from the Audi plant in Neckarsulm to Porsche’s own factory in Zuffenhausen. The 968 was powered by an updated version of the 944’s straight-four engine, now displacing 3.0 L with 104 mm bore, 88 mm stroke and producing 240 PS. Changes to the 968’s powertrain also included the addition of Porsche’s then-new VarioCam variable valve timing system, newly optimized induction and exhaust systems, a dual-mass flywheel, and updated engine management electronics among other more minor revisions. The 968’s engine was the second-largest four-cylinder ever offered in a production car up to that time. A new 6-speed manual transmission replaced the 944’s old 5-speed, and Porsche’s dual-mode Tiptronic automatic became an available option. Both the VarioCam timing system and Tiptronic transmission were very recent developments for Porsche. The Tiptronic transmission had debuted for the first time ever only 3 years prior to the debut of the 968, on the 1989 Type 964 911. The VarioCam timing system was first introduced on the 968 and would later become a feature of the Type 993 air-cooled six-cylinder engine. The 968’s styling was an evolution on that of the outgoing 944, itself styled evolutionarily from the earlier 924, but elements were borrowed from the more expensive 928 model in an attempt to create a “family resemblance” between models, and the swooping headlamp design, inspired by those of the 959, previewed similar units found later on the Type 993 911. Along with the new styling, the 968 featured numerous small equipment and detail upgrades, including a Fuba roof-mounted antenna, updated single lens tail lamps, “Cup” style 16″ alloy wheels, a wider selection of interior and exterior colours, and a slightly updated “B” pillar and rear quarter window to accommodate adhesive installation to replace the older rubber gasket installation. Because some parts are interchangeable between the 968, 944 and 924, some enthusiasts purchase those parts from Porsche parts warehouses as “upgrades” for their older models. Like the 944, the 968 was sold as both a coupe and a convertible. Much of the 968’s chassis was carried over from the 944 S2, which in itself shared many components with the 944 Turbo. Borrowed components include the Brembo-sourced four-piston brake calipers on all four wheels, aluminium semi-trailing arms and aluminium front A-arms, used in a Macpherson strut arrangement. The steel unibody structure was also very similar to that of the previous models. Porsche maintained that 80% of the car was new. From 1993 through 1995, Porsche offered a lighter-weight “Club Sport” version of the 968 designed for enthusiasts seeking increased track performance. Much of the 968’s luxury-oriented equipment was removed or taken off the options list; less sound deadening material was used, electrical windows were replaced with crank-driven units, upgraded stereo systems, A/C and sunroof were still optional as on the standard Coupe and Convertible models. In addition, Porsche installed manually adjustable lightweight Recaro racing seats rather than the standard power-operated leather buckets (also manufactured by Recaro), a revised suspension system optimised and lowered by 20 mm for possible track use, 17-inch wheels rather than the 16-inch and wider tyres, 225 front and 255 rears rather than 205 and 225 respectively. The four-spoke airbag steering wheel was replaced with a thicker-rimmed three-spoke steering wheel with no airbag, heated washer jets were replaced with non heated, vanity covers in the engine bay were deleted, as was the rear wiper. The Club Sport has no rear seats, unlike the 2+2 Coupé. Club Sports were only available in Grand Prix White, black, Speed yellow, Guards red, Riviera blue or Maritime blue. Seat backs were colour-coded to the body. Club Sport decals were standard in either black, red or white but there was a ‘delete’ option. All Club Sports had black interiors with the 944 S2 door cards. Due to the reduction in the number of electrical items the wiring loom was reduced in complexity which saved weight and also the battery was replaced with a smaller one, again reducing weight. With the no frills approach meaning less weight, as well as the optimising of the suspension, Porsche could focus media attention on the Club Sport variants fast road and track abilities. This helped to slightly bolster the flagging sales figures in the mid-1990s. The Club Sport variant achieved a ‘Performance Car Of The Year’ award in 1993 from Performance Car magazine in the UK. Club Sport models were only officially available in the UK, Europe, Japan & Australia, although “grey market” cars found their way elsewhere. The declared weight of the 968 CS is 1320 kg, ~100 kg lighter than the regular 968. Acceleration from standstill to 100 km/h is 6.3 seconds and a top speed is 260 km/h (160 mph). A UK-only version called “968 Sport”, was offered in 1994 and 1995, and was essentially a Club Sport model (and was produced on the same production line with similar chassis numbers) with electric windows, electric release boot, central locking, cloth comfort seats (different from both the standard and the Club Sport). With the added electrics the larger wiring loom was used. The Sport Variant also got back the two rear seats, again in the cloth material specific to the Sport. At £29,975, the 968 Sport was priced £5,500 lower than the standard 968, but had most of the latter’s desirable “luxuries” and consequently outsold it by a large margin (306 of the 968 Sport models compared to 40 standard 968 coupés). In 1993, Porsche Motorsports at Weissach briefly produced a turbocharged 968 Turbo S, a fairly odd naming choice for Porsche which usually reserves the added “S” moniker for models that have been tuned for more power over a “lesser” counterpart, such as with the 911 Turbo. The 968 Turbo S shared the same body and interior as the Club Sport and visually can be identified by the NACA bonnet hood scoops, adjustable rear wing and deeper front spoiler. Powered by a large 8 valve SOHC cylinder head (944 Turbo S) with 3.0 Litre 944S2 style engine block. Tests conducted in 1993 produced a 0 to 60 mph (97 km/h) of 4.7 seconds and a top speed of 282 km/h (175 mph), performance comparable to the much newer Type 996 911. It generated 305 bhp at 5600 rpm with a maximum torque of 370 lb·f) at 3000rpm. Only 16 were produced in total and only for sale in mainland Europe. Between 1992 and 1994, Porsche Motorsports Research and Development built and provided a full “Race” version (stripped out 968 Turbo S) for Porsche’s customer race teams. The 968 Turbo RS was available in two variations; a 337 bhp version using the K27 turbocharger from the Turbo S, which was built to the German ADAC GT specification (ballast added to bring the car up to the 1350 kg minimum weight limit), and an international spec version which used a KKK L41 turbocharger producing 350 bhp and was reduced to 1212 kg in weight. Only 4 were ever produced ; 1 Guards Red, 1 Speed Yellow, 1 Black and 1 White. These are the rarest 968s ever produced.

RAMBLER

I’ve seen this 1963 Ambassador 990 at a number of Prescott events in recent times. The Ambassador was the top-of-the-line automobile produced by the American Motors Corporation (AMC) from 1958 until 1974. The vehicle was known as the AMC Ambassador, Ambassador V-8 by Rambler, and Rambler Ambassador at various times during its tenure in production. Previously, the name Ambassador had applied to Nash’s “senior” full-size cars and indeed the Ambassador nameplate was used continuously from 1927 until 1974 (the name being a top-level trim line between 1927 and 1931); at the time it was discontinued, Ambassador was the longest continuously used nameplate in automotive history. The car seen here was the fourth generation of the Rambler-badged cars to bear the name. In 1962 Romney had left AMC to run for Governor of Michigan, a position that he won. The automaker’s new president, Roy Abernethy, who was responsible for the increasing sales under Romney, reacted to the mounting competition (in 1963 AMC built as many cars as they had in 1960, but overall total car sales had increased so much that it gave AMC only sixth place in production; the same output in 1960 had put them third) in a logical way: “Let’s get rid of this Romney image.” A completely redesigned larger Rambler line-up appeared. The new cars continued the philosophy in building smaller cars than its larger “Big Three” competitors that also had a high degree of interchangeability in parts to keep tooling costs and production complexity to a minimum. The company, which pioneered “styling continuity”, introduced all-new styling for the 1963 model year Ambassadors and claimed that these were “functional changes …. not change just for the sake of change.” The Ambassadors featured a 4-inch longer wheelbase, but were 1.2-inch shorter due to reduced front and rear body overhangs, as well as a 3-inch drop in over-all height. Designed by Richard A. Teague, the 1963 Ambassador’s shape was much tighter, cleaner, and smoother, with almost all of its parts interchangeable between it and the new Classic. All Ambassadors used unitised structure instead of the more rattle-prone, traditional body-on-frame construction which was still the industry standard. In 1963, AMC’s new 112 in wheelbase cars (Ambassadors and Classics) used a revolutionary method of unit construction which has since been almost universally adopted by automobile manufacturers. AMC Ambassador and Classics used outerpanels stamped from single sheet metal panels which included both door frames and outer rocker panels. This resulted in an extremely rigid and rattle-free structure, better fit of doors into frames, production cost savings and reduced noise, vibration and harshness. The “uniside” structure was superior to the conventional production methods in which multiple smaller pieces were welded together. There were 30% fewer parts and the result was greater structural rigidity, quieter car operation, and an over-all weight reduction of about 150 pounds. Curved side glass and push-button door handles were new and costly upgrades, but contributed to the new Rambler’s handsome, elegant, and modern Mercedes-like bodyside styling, by adding greater elegance in detail. At the time, curved side glass was used only in much more expensive luxury cars, but increased interior room and visibility, as well as reducing wind noise and improved proportions and styling of the cars. The Ambassador also featured a squared-off Thunderbird-type roofline. The front end featured a forward-thrusting upper and lower ends with a vertical bar “electric shaver” chrome grille insert. The Ambassador’s grille was differentiated from the Classic’s grille by its use of the Ambassador name in script in the small horizontal bar between the upper and lower grille sections. Round quad headlights were slightly recessed in chrome bezels mounted side-by-side within the grille at its outermost edges. Overall, the new Ambassadors were described by the staff of Automotive Fleet magazine as “probably the finest looking cars ever produced by American Motors.” Ambassadors once again came in 2-door coupe, 4-door sedan, and 4-door wagon body styles, but new trim lines debuted. A “Mercedes-like three-number model designation was developed” with the 800 as the Ambassador’s base line (replacing the previous year’s Super model) for the police, taxi, and fleet market, a 880 model (in place of the Custom), and the up level 990 trim (replacing the previous 400 models). The 1963 Ambassadors were offered only with the 327 cu in (5.4 litre) V8, in either 250 hp 2-barrel or 270 hp 4-barrel versions. AMC’s smaller 287 cu in (4.7 litre) V8 engine was only offered in the Classic line. The automatic transmission was controlled by a steering column mounted lever, replacing the previous pushbutton system. Maintenance was reduced with service intervals of the front wheel bearings increased from 12,000–25,000 miles, the recommended engine oil change was at 4,000 miles, and all Ambassador models included an alternator and an electronic voltage regulator as standard equipment. Sales were brisk, and the redesign was billed a success, with Motor Trend Magazine bestowing Car of the Year status on the entire 1963 Rambler line, including the Ambassador. The marketing formula for the Ambassador generated record sales for the model with buyers favoring more luxury and features as evidenced by the Ambassador 990 models outselling the 880 versions by nearly 2-to-1, while the base 800 model had a total of only 43 two-door sedans built. The automaker did not have the resources of GM, Ford, and Chrysler, nor the sales volume to spread out its new model tooling and advertising costs over large production volumes; however, Richard Teague “turned these economical cars into smooth, streamlined beauties with tons of options and V-8 pep.” The 1964 model year introduced minor trim changes and new options. The “electric-shaver” grille on the 1963 model was replaced with a flush-mounted design, and the engine and transmission options were widened. A two-door hardtop body style called 990-H was added for the first time since 1957. Base 880 and the 880 models were dropped from the line. The 1964 Ambassadors featured the 250 hp 2-barrel 327 cu in (5.4 litre) V8 as standard, with the 4-barrel 270 hp version as optional. The automaker did not offer a 4-speed manual transmission to compete with the sporty mid-size V8 offerings from Ford or GM. Instead, AMC offered its innovative “Twin-Stick” manual transmission. The “Twin stick” option consisted a three-speed manual transmission, operated by one of the two console mounted “sticks” in conjunction with an overdrive unit that was controlled by the second “stick” in both 2nd and 3rd gears. This gave the driver the option of using five forward gears. One magazine noted the Twin-Stick, 270 hp Ambassador was heading for a sub 16-second quarter-mile when they blew up the clutch. A new generation 990 model was introduced for 1965.

ROLLS ROYCE

This is the latest version of the imposing Phantom, and as such is the eight generation model to bear the name. Although it retains a lot of the style of its predecessor, it is different in many of the details, and as such is easy to tell apart.

TEAL

Present on both days were a number of cars from the Teal Car Club. The story of the Teal is quite involved story, and it probably takes longer to tell than it does to list the number of products that got made. The first Teal, then called a Worsley, was designed by Ian Foster on the back of several fag packets in the bar of The Pack Horse Inn at Affetside, Bury in 1983. Ian had been a chassis designer for Daimler (including the Daimler Dart) before setting up his own business, Trafford Brake Services, in Patricroft, Eccles, near Manchester. The story goes that at the Pack Horse one night in 1983, Alan Hunter told his friends Ian Foster and Tony Rogers, a part time motor-sport driver, that he had just flown back from America, where he was on business for Mitchell Shackleton Ltd, a large engineering company making marine crankshafts, and that at Los Angeles airport, he had seen what he thought was a Bugatti Type 35, but in fact the brochure which Alan had picked up revealed this to be a rear-engined VW-based fibreglass kit car replica. The glorious Bugatti-style bonnet was,of course, empty. Ian then described on the ‘fag packets’ how an effective, strong chassis for a front-engined Bugatti replica could be designed to make use of the good GRP bodywork available. Alan listened in silence, then asked quietly: ‘would that work?’ When Ian and Tony both chorused ‘yes!’, Alan told them he would collect £330 off each of them the following week, and he would bring a body kit back from America! Within six weeks the kit of excellent GRP bodywork had arrived from the USA. Ian took accurate dimensions, the trio persuaded a Heywood fibreglass boat-builder to produce a mould and commence production, and Alan Hunter had the first 12 chassis welded up at Mitchell Shackleton Ltd to Ian Foster’s measurements. They were delighted with the result. Publicity was required to sell the new car, and Tony Rogers felt that the original Tudor courthouse in Worsley, Manchester, would make a suitable backdrop for photos. Brochures giving the Worsley’s spec were produced. In mid 1983, Granada TV’s Look North ran a piece, and the Worsley was launched. From mid-1983 Worsley cars were built at Trafford Brake, Patricroft, Eccles on a very strong twin-ladder box steel chassis with extensive triangulation to enhance rigidity. The GRP bodywork was well moulded in five sections, Morris 1.3 or 1.8 litre engines were fitted, and Morris Marina running gear/brakes were used with the smaller 8-spoke wheels. The first 8 cars were called Worsleys; but Ian remembered from his days with Daimler that in Brummie slang a ‘worsley’ meant a Friday car – a duff one, so a search started for a new name. At this time Ian was running his main business Trafford Brake, and he had also linked up after the February 1984 Target Motor Trade Show in Birmingham with Mike Alderson from Hampshire, who with Bob Buckley of Thistledown Engineering became his southern sales agents. After a bit of midnight oil burning, and some long distance phone calls, it was decided that the new car would be called TEAL, which has been variously described as standing for Trafford Engineering Automotive Limited; Trafford Engineering Automobiles Limited; Thistledown Engineering Automotive Limited; Trafford Engineering Associates Limited. Whichever it really is, the cars became TEALS; Mike Alderson had the new Teal badge rapidly designed and manufactured in Andover. He fitted the badge to the Teal which he had picked up from Ian in Birmingham, and had driven in leathers, flying helmet and goggles with Bob Buckley through a frozen March 1984 day first to Cirencester to thaw out in front of a hotel log fire, then on to Hampshire to appear on Southern TV at Southampton with the Teal in the studio , the first recorded long-distance drive of a Teal. The summer of 1984 was hectic at Teal. The car had appeared in Autocar magazine of March 1984, formed the front cover of Kit Car magazine July 1984, with a comprehensive report by Ian Hyne, had been on television twice, displayed at the Birmingham NEC (July 1984) and queries were coming in from all over the world. By July 84 eight Teals had been built, some at Eccles and some as kits, and Mike Alderson in Hampshire put in orders for eight more completed cars for clients in the South. The question now was could Teal cars cope with the rapid throughput of orders? The Teal kit price in the summer of 1984 for chassis and body was £3000 with 3 weeks delivery; the completed, drive-away car was £5700 and 12 weeks delivery quoted. Meanwhile Ian Foster was trying to run his own business at Trafford Brake, and was being pressed in 1984/85 to carry out a range of modifications to increase the sophistication and the appeal of the original Teal. He was also trying to arrange a move of Trafford Brake to Burscough. Something had to give, and in 1985 after about 30 GRP Teals had been manufactured in all, several going to the Continent, Ian Foster decided to sell Teal Cars – he discussed it with Mike Alderson in Hampshire, but in the end Teal Cars was purchased by Bob Jones in March 1986. Bob, redesigned the chassis, replacing the GRP body with an all- aluminium skin, developing the design through the late 1980s and 1990s using a steel box chassis of great strength and rigidity, hand-wheeled aluminium boat-tail and louvred aluminium bodywork, refining the styling of the Teal to look very much like an original Bugatti T35A, but larger. A real Type 35 is quite small, with only a 2.40 metre wheelbase and 1.20 metre track; in the Teal T35 the wheelbase has been increased by 40cm, and the track by 20 cm, providing a footprint nearly 40% bigger on the ground – a much more comfortable size to drive on contemporary roads. The large 18 inch wire wheels from MWS (Motor Wheels Services) were now used, and Bob lowered the centre section of the chassis to provide improved handling, and a much more purposeful stance which is particularly evident in the Type 35B. The cars were built at Harrowby Mill near Bolton and near Altrincham in Cheshire, and could be purchased complete and ready to drive from the ‘works’, or in the kit form of chassis, suspension, wheels, bodywork and trim for assembly at home, thereby avoiding tax. Nearly all 2-seater Teals have no hood, but most owners do have a tonneau and a wind-blown complexion. The standard engine options were BMC 1700 or 1800cc/MGB 4-cylinder motors, but later there cars also came with 2.0 or 2.5 litre Triumph straight six options. Fiat-Lancia 2.0 twin cam engines have been used in the Teal T35, as well as Rover 2.6 litre straight sixes, Nissan motors and, in the strengthened Teal T35B, even the Jaguar 3.4 or 4.2 litre straight 6 engines. The Teal is also seen in a four-seater Tourer version, with ‘proper’ windscreen and hood, ideal for the sporting family motorist – or those who need to carry lots of baggage. In 1996 Bob Jones sold the Teal Type 35 designs to Norman Durban of Bisley, Surrey, but they agreed that Bob should complete all existing orders, which resulted in Bob building Teals and Teal kits until early 1998. Norman Durban, with his son, has competed in his interesting Teal T35 ‘April’ (from the registration number RPA1L) in the Liege-Roma-Liege Rally on the Continent. It is hoped by many Teal enthusiasts that production of the further-developed Teal Type 35 might restart, but that does not appear likely. In December 2010 The Teal Owners’ Club purchased the rights to the name Teal, and the right to manufacture all Teal cars except the Type 59 (Ted Riley). It also purchased the bucks for the Teal Type 35 mudguards, radiator, bonnet and boat tail. These days you can buy one for a few thousand £, though the very best cars have sold for around £35,000, an astonishing figure, though of course this is a fraction of the price of a genuine Bugatti Type 35.

THE MOTOR.NET

These are the cars from my friends who comprise part of The Motor.net, a web-forum based group created some years ago out of the ruins of Autocar magazine’s ill-fated relaunched web forum which encouraged us to create our own. That is a long time ago now, and those who show up at events like this are personal friends whose company is always enjoyable, and some of whom I see more regularly than others. Between the attendees, there is always a wide variety of cars and that was the case this time. Piers’ I-Pace was perhaps the one which seemed to be attracting most attention, as this would be the first chance for most people at the event to see one.

With Ed Barnes’ recent acquisition of a right yellow Cayman GT4, it meant that there were two of these in the group, as Dan Duke brought his along as well. These were joined by Andy Convery’s characterful Mountune-d Ford Focus ST and Stu Clough’s slightly breathed on Volvo V60 T5 and Karl Haines’ BMW M140i. On the Sunday, Dan brought his M3 Saloon, for added variety.

TOYOTA

Displayed at the October 1970 Tokyo Motor Show and marketed from December of the same year, the Celica was a two-door hardtop coupe that emphasised styling and driving enjoyment based on a platform shared with the Toyota Carina sedan which is one size above the Toyota Corolla. This car was aimed at the North American market and was Toyota’s response to the 1964 Ford Mustang (Pony car) which also was a standard sedan (Ford Falcon) with stylised 2+2 bodywork. In Europe, where it arrived in 1971, it was aimed at the successful Ford Capri. For export markets the Celica was available in three different levels of trim; LT, ST, GT, all with the same 1.6 litre 4 cylinder engine, though the LT had a single carburettor and the ST and GT had twin carbs. At its introduction the Celica was only available as a pillarless hardtop notchback coupe, adopting “coke bottle styling”. The prototype SV-1 liftback was shown as a concept car at the 1971 Tokyo Motor Show & with slight modifications this was introduced in Japan in April 1973 and this arrived in Europe in 1974. Minor styling changes were made during the car’s life before it was replaced by a second generation car in late 1977.

TRIUMPH

Sole Triumph of note was this Vitesse 2 litre Mark 2 Convertible. Three years after the launch of the Herald, Triumph created a more sporting version by putting a 1600cc 6 cylinder engine under the bonnet, calling the result the Vitesse. Handling of the early cars, on their swing axle suspension was best described as “interesting”, but Triumph worked hard to revise (tame!) it so by the time that the 2 litre models were launched in 1965, the car was rather easier to drive briskly on bendy roads. A Mark 2 version was launched in 1968, with new front end styling and other trim differences, and the model lived on until 1971.

TVR

The TVR Car Club always come to the visit and bring a variety of these much-loved British classics with them. There was a pleasing variety in the array of TVR models on display. Oldest was a Taimar from the late70s. The TVR M Series cars were built between 1972 and 1979, replacing the Vixen and Tuscan models. The styling showed a clear resemblance to the models that the M replaced, with the centre section of the car being carried forward and conceptually, the cars were little different, with a front mid-engine, rear-wheel drive layout and body-on-frame construction. The bodies themselves were built from glass-reinforced plastic (GRP). The engines were bought in, sourced from Triumph and Ford, which resulted in a number of different models being made. These included the 1600M, 2500M, 3000M, 3000S, and Taimar, as well as turbocharged versions of the 3000M, 3000S, and Taimar. The first model to start production was the 2500M in March 1972, after being built as a prototype in 1971, which had the 2500cc engine from the Triumph 2.5PI and TR6 under the bonnet. Ford engined 1600M and 3000M models followed later. The American market was financially very important to TVR, and Gerry Sagerman oversaw import and distribution of the cars within the United States from his facility on Long Island. Approximately thirty dealers sold TVRs in the eastern part of the country. John Wadman handled distribution of the cars in Canada through his business, JAG Auto Enterprises.. A small number of 5.0 litre Ford V8-powered cars were finished or converted by the TVR North America importer; these were sold as the 5000M. A total of 2,465 M Series cars were built over the nine years of production. Because of the hand-built and low-volume nature of TVR production, there are many small and often-undocumented variations between cars of the same model that arise due to component availability and minor changes in the build process. The M Series was regarded by contemporary reviewers as being loud and fast and having excellent roadholding. This came at the expense of unusual ergonomics, and heating and ventilation systems that were sometimes problematic. The first major alteration to the M Series body was the hatchback Taimar, introduced at the October 1976 British International Motor Show and using the same mechanicals as the 3000M. The name was inspired by the name of Martin’s friend’s girlfriend, Tayma. The opening hatchback alleviated the previous difficulty of manoeuvering luggage over the seats to stow it in the cargo area, and the hatch itself was opened electrically via a solenoid-actuated latch triggered by a button on the driver’s doorjamb. Over its three-year production, a total of 395 normally aspirated Taimars were built. The final body style for the M Series, an open roadster, arrived in 1978 as the TVR 3000S (marketed in some places as the “Convertible”, and referred to at least once as the “Taimar Roadster”.) Like the Taimar, the 3000S was mechanically identical to the 3000M; the body, however, had undergone significant changes. Only the nose of the car was the same as the previous coupes, as the windscreen, doors, and rear end had all been reworked. The redesign of the doors precluded the possibility of using wind-up windows, so sliding sidecurtains were instead fitted. These could be removed entirely and stowed in the boot, which, for the first time on a TVR, was a separate compartment with its own lid. The boot lid was operated electrically in a manner similar to the Taimar’s hatch. Its design was not finalised by the time the first cars entered production, so the first several cars (including the prototype) were built with no cutout for boot access. The final styling tweaks and the production of moulds for the fibreglass were done by Topolec Ltd. of Norfolk. The styling of the 3000S was revived in a somewhat modernised form later, with the 1987 introduction of the TVR S Series (although the S Series shared almost no components with the M Series cars.) The windscreen and convertible top had been adapted from those used on the Jensen-Healey roadster. Because Jensen Motors had ceased operation in 1976, the windscreen and sidecurtain designs were done by a company named Jensen Special Products, which was run by former Jensen employees. The design for the convertible top was finalised by Car Hood Company in Coventry. One of the minor undocumented variations found on M Series cars is the presence of a map light built into the upper windscreen surround of the 3000S. It appears to have been included only on a very small number of cars built near the end of the production run. When production of the 3000S ended (with 258 cars built), it cost £8,730. Reportedly, 67 of these cars were in a left-hand drive configuration, and 49 were exported to North America.

TVR replaced their long-running shape with something really quite radical looking in early 1980. with the Tasmin, and there was a relatively early version of these “wedge” era TVRs here. During the 1970s, when Martin Lilley started to look where to take the Blackpool based company next, he noted that Lotus appeared to have reinvented itself with the Elite, Eclat and Esprit, losing much of the kit-car image in the process, and he thought he needed to do something similar. He needed a new design language, so he contacted Oliver Winterbottom who had done the Elite/Eclat for the Norfolk firm, hoping for something new. The wedge-shaped design that Winterbottom created was produced in 1977, and a prototype was created the following year, before the new car’s launch very early in 1980. Based on the Taimar, but with very different wedge styling, the car was not exactly received with massive enthusiasm. The styling looked a bit like yesterday’s car, as the wedge era was on the wane, and the car’s price pitched it against cars like the Porsche 924 Turbo. Development of the new car had drained TVR’s finances, which led to Lilley ceding control of the company in 1981 to Peter Wheeler. The convertible that followed helped matters a bit, whereas the 2 litre 200 and the 2+2 model did not, but in 1983, TVR announced a revised version with the potent Rover 3.5 litre V8 under the bonnet, in lieu of the 2.8 litre Ford Essex unit, and it transformed the car. It was just what was needed, and over the next few years, a series of ever more potent models, with ever wilder styling came into the range. By 1986, the 450SEAC boasted 340 bhp, making this something of a supercar.

The Griffith was the first of the modern generation TVRs. First seen as a concept at the 1990 British Motor Show, it wowed the crowds sufficiently that unlike the Show Cars of precediing years, may of which were never seen again, Peter Wheeler and his small team in Blackpool immediately set about preparing it for production. It took until mid 1992 before they were ready. Like its forerunner namesakes, the Griffith 200 and Griffith 400, the modern Griffith was a lightweight (1048 kg) fibreglass-bodied, 2-door, 2-seat sports car with a V8 engine. Originally, it used a 4.0 litre 240 hp Rover V8 engine, but that could be optionally increased to a 4.3 litre 280 hp unit, with a further option of big-valve cylinder heads. In 1993, a TVR-developed 5.0 litre 340 hp version of the Rover V8 became available. All versions of the Griffith used the Lucas 14CUX engine management system and had a five-speed manual transmission. The car spawned a cheaper, and bigger-selling relative, the Chimaera, which was launched in 1993. 602 were sold in the first year and then around 250 cars a year were bought throughout the 90s, but demand started to wane, so iIn 2000, TVR announced that the Griffith production was going to end. A limited edition run of 100 Special Edition (SE) cars were built to mark the end of production. Although still very similar to the previous Griffith 500 model, the SE had a hybrid interior using the Chimaera dashboard and Cerbera seats. Noticeably, the rear lights were different along with different door mirrors, higher powered headlights and clear indicator lenses. Some also came with 16-inch wheels. Each car came with a numbered plaque in the glove box including the build number and a Special Edition Badge on its boot. All cars also had a unique signature in the boot under the carpet. The SEs were built between 2000 and 2002, with the last registered in 2003. A register of the last 100 SEs can be found at TVR Griffith 500 SE Register. These days, the Griffith remains a much loved classic and to celebrate the car, the owners have a meet called “The Griff Growl.” Among the cars here was a late model, with the altered front end styling which was not – in my opinion – an improvement.

There were even more examples of the Chimaera, reflecting the fact that this car sold in greater quantities, and is that bit more affordable to buy and run than the Griffith on which it is based. Launched in late 1992, this car was sold with 4.0, 4,3, 4,5 and 5 litre V8 Rover-based engines over a 10 year life. The styling changed little during that time.

The next car that TVR added to the range was the Cerbera, which was first shown as a prototype at the 1994 Birmingham Show, entering production in 1996. The name derives from Cerberus the three-headed beast of Greek legend that guarded the entrance of Hades. This was the third car manufactured by TVR under the leadership of Peter Wheeler, and it represented three firsts for the Wheeler-led company: the first hard-top—the Griffith and the Chimaera were both convertibles; the first 2+2—TVRs were traditionally two-seaters; the first to be driven by TVR’s own engines—historically, TVR had purchased engines from mainstream manufacturers like Rover, Ford and Triumph. Prior to the Cerbera, TVR had purchased V8 engines from Rover and then tuned them for their own use. When Rover was purchased by BMW, Peter Wheeler did not want to risk problems should the Germans decide to stop manufacturing the engine. In response, he engaged the services of race engineer Al Melling to design a V8 engine that TVR could manufacture in-house and even potentially offer for sale to other car-makers. In an interview for the television programme Top Gear, Wheeler explained “Basically, we designed the engine as a race engine. It was my idea at the time that if we wanted to expand, we ought to make something that we could sell to other people. We’ve ended up with a 75-degree V8 with a flat-plane crank. The bottom-half of the engine to the heads is exactly as you would see in current Formula One engines.” Wheeler was quoted at the time of the car’s launch as saying that the combination of light weight and high power was too much for a road car, a quote which ensured much free publicity in the press. Enthusiasts still argue about whether this was a typical example of Wheeler’s legendary frankness, or an equally typical example of his PR chief Ben Samuelson’s knack for saving on advertising costs by creating a story. The result was dubbed the “Speed Eight” (official designation ‘AJP8’) after Al Melling, John Ravenscroft and Peter Wheeler, a 4.2 litre V8 producing 360 hp and gave the Cerbera a top speed of 185 mph (297 km/h). A 4.5 litre version of the engine was later offered with 420 hp. The AJP8 has one of the highest specific outputs of any naturally aspirated V8 in the automotive world at 83.3 hp/litre for the 4.2 and 93.3 hp/litre for the 4.5. Later models of the 4.5 litre engine had the ‘Red Rose’ option, which increased output to 440 bhp (97.7 hp/litre) when fuelled with super-unleaded (high octane) and the driver pushed the unmarked button on the dashboard which altered the engine mapping to suit. In some cases, real-world outputs for production V8s (4.5 in particular) were down from TVRs quoted output. Some of these have seen some form of modification (ECU, induction, exhaust etc.) to bring the power back up to the factory quoted output. One of the attractions of the V8 Cerberas for many owners was the loud backfire produced on overrun, particularly at low speeds. In fact this was the result of an argument at the factory between one of TVR’s executives and the engineers mapping the engine. The engineers wanted to map out this “irregularity” to improve fuel efficiency and CO2 emissions, whilst the executive insisted it was exactly the kind of thing owners would like. In the end a compromise was reached in which the popping and banging remained on the 4.5 litre cars. With the success of the Speed Eight program, Wheeler also undertook the design of a “Speed Six” engine to complement it. This engine also made its debut in the Cerbera but was a 4.0 litre inline slant six design with four valves per cylinder to the Speed Eight’s two. In service however it gained a reputation for unreliability and many engines had to be rebuilt. The car itself was designed from the start as a four-seater. The rear seats are smaller than the front, a design commonly referred to as a “2+2”. However, the interior is designed so that the passenger seat can slide farther forward than the driver’s seat. This allows more room for the person sitting behind the front passenger. TVR have referred to this as a “3+1” design. TVR maintained its tradition of building cars that were not only exceptionally powerful but also very light for their size and power output. The Cerbera’s weight was quoted by TVR at 1100 kilograms, although customers claimed the weight varied between 1,060 kg (2,337 lb) and 1,200 kg (2,646 lb). The dashboard was designed especially for the Cerbera and uses a two-spar steering wheel as opposed to the typical three-spar previously found in most TVRs. The reason for this is that minor instruments are located on a small panel below the steering wheel and a third spar in the wheel would have made them difficult to read. Like all TVRs of the Peter Wheeler era, the Cerbera had a long-travel throttle to compensate for the lack of electronic traction-control and very sharp steering. The V8 powered cars were two turns from lock to lock and the Speed Six car was 2.4 turns. This made it easier for experienced drivers to maintain or regain control of the car in the event of a loss of traction but some less experienced drivers complained that it made the cars feel “twitchy” and more responsive than they would otherwise have preferred. In 2000, TVR changed the styling of the car slightly by modifying the headlights to more closely resemble those seen in the TVR Tuscan. The “facelift” features were available with all three engine configurations. In addition, the cars equipped with the 4.5 litre engine were offered with the “lightweight” option, reducing the overall weight through the use of lighter body panels and a slightly reworked interior. The final car was made in 2006.

The Tuscan was launched in 2000, by which time there had been a series of what we think of as the modern era TVRs produced for nearly a decade, the Cerbera, Griffith and Cerbera. The Tuscan did not replace any of them, but was intended to help with the company’s ambitious push further up market to become a sort of Blackpool-built alternative to Ferrari. It did not lack the styling for the task, and unlike the preceding models with their Rover V8 engines, the new car came with TVR’s own engine, a straight six unit of 3.6 litre capacity putting out 360 bhp. The Tuscan was intended to be the grand tourer of the range, perfectly practical for everyday use, though with only two seats, no ABS, no airbags and no traction control, it was a tough sell on wet days in a more safety conscious world, but at least there was a removable targa top roof panel for those days when the sun came out. The car may have lacked the rumble of a V8, but when pushed hard, the sound track from the engine was still pretty special, and the car was faster than the Cerbera, but sadly, the car proved less than reliable, which really started to harm TVR’s reputation, something which would ultimately prove to be its undoing.

The T350 cars were made from 2002 to 2006. They were based on the TVR Tamora, and powered by TVR’s Speed Six engine in 3.6 litre form, producing 350 hp. The T350 was available in coupe and targa versions, the coupe version being known as the T350C, and the targa version the T350T. The T350 later formed the base of the TVR Sagaris. Function dominates form evident by the car’s aero-dynamic design which has been created for maximum downforce and minimal drag. The smooth frontal nose and the sharp rear cut tail allows the car to be aerodynamically efficient while reducing drag. The sloping rear line of the car ensures that the car generates minimum lift at high speeds. The car takes many components from the entry level Tamora such as the interior, multi-function display and analogue metres. The optional Sport package adds extra options in the multi-functional display such as lap-times, oil temperature and water temperature. The fastback design of the car gives the customer an advantage of increased boot space. The powerful Speed Six engine is a proven race winning unit and very responsive suiting the car’s aggressive character with a 0 – 100 km/h time of just 4.4 seconds.

VAUXHALL

This is a 30/98, a long running car produced from 1913 to 1927, although it is believed that only 13 30/98s were made before war intervened and these were all for selected drivers, the last of these pre war cars, built in 1915 for Percy Kidner a joint Managing Director of Vauxhall. Actual production began in 1919. Also known as the E Type, the 30/98 name is believed to have been coined because the car had an output of 30 bhp at 1,000 rpm and 98 bhp at 3,000 rpm, though another explanation is that it had an RAC horsepower rating of 30 and a cylinder bore of 98 mm. Perhaps the most likely of all is that there was then a popular but heavier slower Mercedes 38/90. However it was found, the name 30-98 looked and sounded so well and the car proved popular. The 30/98s used the earlier Prince Henry chassis, but were distinguished by having more-or-less flat rather than V-shaped radiators. Laurence Pomeroy took the Prince Henry L-head side-valve engine, bored it out 3 mm, then cold-stretched the crankshaft throws 5 mm using a steam power hammer to lengthen the stroke. The camshaft was given a new chain drive at the front of the engine, high lift cams and new tappet clearances. The Prince Henry chassis was slightly modified and the whole given a narrow alloy four-seater body, a pair of alloy wings (front mudguards) and no doors. The first 30/98 was constructed at the behest of car dealer and motor sport competitor, Joseph Higginson—inventor of the Autovac fuel lifter—who won the Shelsley Walsh hill-climb motoring competition on 7 June 1913 in his new Vauxhall, setting a hill record in the process, having in previous weeks made fastest time of the day at Waddington Pike and Aston Clinton, but these were not racing machines but fast touring cars. The exhaust made a tranquillising rumble, there was no howl, no shriek, no wail, but there was the quiet satisfaction of knowing that if stripped for action, the car could lap Brooklands at 100 mph, and its makers guaranteed that. Most of them were built with a 4 seater open tourer body, though other body styles were produced as well.

VOLVO

Now quite a rare sighting, final car of note was this Volvo 480ES. The 480 was produced in Born, Netherlands, at the factory that built DAF cars, including the DAF 66 based Volvo 66, and later, the Volvo 300 Series. It was the first front-wheel drive car made by the automaker. The 480 was available in only one body style on an automobile platform related to the Volvo 440/460 five door hatchback and four door sedan models. It featured an unusual four seat, three door hatchback body, somewhere between liftback and estate in form, the first Volvo of its style since the P1800ES, and the last until the unveiling of the C30. All of these models featured a frameless glass hatch for cargo access.. Volvo took six years from the time the 480 was conceived, through its development, and finally brought to production readiness. Designed by Volvo’s Dutch subsidiary, the “sporty 480 ES coupe” was introduced to change the automaker’s “frumpy image” and into the “yuppie” market segment. The concept was to market a modern, compact front wheel drive car with a unique low slung design targeting buyers “between 25 and 40, probably with a higher than average education and with a career.” The press launch was on October 15, 1985, but the 480 was first put on public show at Geneva in March 1986, becoming available to the buyers in 1987. It was initially well received, with the press describing it as having a “sleek hatch body” in contrast to Volvo’s traditional “boxcar look”. Because the 480 was originally planned for the North American market (evidenced by its front and rear side markers, not used on European automobiles). it was, Volvo claimed, one of the first cars sold in Europe featuring bumpers designed to comply with United States National Highway Traffic Safety Administration (NHTSA) regulations to withstand a 5 mph front rear impact without damage to the engine, lights, and safety equipment. This was the only Volvo to feature pop up headlamps for better aerodynamics. Volvo highlighted that the car was “well-endowed with advanced electronics” and the automaker’s press release described in detail the numerous features, though some of these would prove to be the cause of the reliability problems that plagued early cars. The 480 had good handling, due in part to its Lotus designed suspension. The normally aspirated Renault engines were reliable. The 1987 models were available with ABS as an optional extra. In 1988, a Turbo version was introduced, the Garrett AiResearch turbocharger increasing the power from 108 bhp to 118 bhp. Maximum torque was 129 lb-ft compared to 103 lb-ft for the naturally aspirated engine. In 1993 new legislation meant that catalytic converters had to be fitted to unleaded petrol engines, power dropped and so the 2.0 litre engine was developed; it was rated at 108 bhp and 122 lb-ft. A four-speed automatic transmission was also offered. In 1991, the 480 received new mirrors, headrests for the back seats, as well as subtle modifications to the trim and body colour bumpers. The 2.0 naturally aspirated engine was also introduced, again based on the Renault F3 engine. Changes between the CEM (Central Electronic Module) are externally apparent with the introduction of a total closure system whereby the key can be held in the lock position to close the windows and (where fitted) sunroof. Earlier CEM modules feature a “passing” function for the wipers, whereby fully depressing the accelerator pedal will switch intermittent wipers to full. Early 1992 saw the first release of special editions such as the “TwoTone”. 1994 saw the United Kingdom release of the “Celebration” limited edition of 480 specially equipped and numbered cars. In 1994, the 480 also received its last light update, and now sported clear front turn signals. Production ended on 7 September 1995. According to the Volvo Museum, 76,375 cars in ES and Turbo versions were made between 1986 and 1995.

Although this proved to be an enjoyable weekend – despite the Sunday morning downpour – it can’t really be claimed that this was the best of the La Vie en Bleu series. The big French Car Club presence which used to fill the orchard was missing yet again, likely deterred by the decision that had been taken not to give Clubs specific and dedicated parking areas which had decimated the attendance in 2017 manifest itself once again for 2018. Without the Italian cars, which outnumbered the French ones by a significant margin on both days, the Orchard would have been very thin indeed. For sure the Paddock had plenty of nice and rarer machinery to admire, and the hill-climb activity was entertaining, but somehow the spark has been lost. I have to hope that it will return to the 2019 event.