In my childhood, sources of information about cars came from motoring magazines or books. From an early age, I started to amass an ever-growing collection of the former, with a weekly delivery of Autocar to the family home, and I used to read and re-read these for hours at a time, which is probably one reason why so many pieces of automotive trivia appear ingrained in my brain. But the potential for spending hours, nose buried in the pile of magazines was a mere nothing compared to the Internet. As well as discovering far more than you ever could from even quite a sizeable pile of magazines, as you click from link to link, you can also enjoy looking at content from a far wider group of people, enjoying photos and blogs and their own websites, not dissimilar to this one. As well as learning lots, this can also provide the inspiration for new events to schedule and places to visit., And that is how I came to be heading half way across the country to a small hotel on the A6, just north of Bedford. Called the Sharnbrook Hotel, it’s not the sort of place I would be that likely to discover from a quick Google, unless, I guess I was looking for hotel accommodation in the area. But the proprietor of the establishment has a passion for cars, especially Italian Cars, and regularly hosts car events in the grounds of his hotel. Having seen pictures that a couple of friends, and by clicking through, their friends, had posted, it looked like these were the sort of events that would appeal to me, so when I spotted that Sharnbrook’s Italian Car day, also publicised as the Bedfordshire Italian Car Day was taking place, and the diary was free, I decided to make an early start and head over and investigate. Bedford is not the easiest place to get to when the start location is Bristol, as it is a good 2.5 hours of mainly A road journey to get there, cutting diagonally across the middle of the country, but it turned out to be well worth it, with a fabulous array of Italian cars that packed out every available square inch of display space. Here’s what I saw:
There were a couple of classic Abarth models here, a 595SS and the visually similar, but more powerful 695SS. 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, and I suspect that this pair could both be among them, but even if they are, still nice and still a lot of fun.
Better represented were modern Abarths, of course, with the cars scattered throughout the display area allocated to more modern Italian machinery. Most numerous were the 500-based machines, with several examples present, including my own 595 Competizione.
Joining them was a 695 Biposto. I did not get the chance to meet the owner on the day, but he appeared at the Ace Cafe a few days later, so I know now that this lovely car belongs to Jerry and Carla Rigden. Both are car enthusiasts and Carla acquired a 595 Competizione a few weeks ago, and was so taken with it, that Jerry decided he wanted an Abarth a well, and secured this Biposto which has had some subtle and minor modifications to give it even more power than the 190 bhp with which it was endowed when it left the factory.
The latest Series 4 cars are just reaching the UK, and there were a couple of these in 595 Competizione guise, shown by dealer Rockingham Cars who had a collection of brand new cars on show.
Reminder that the modern Abarth is not just about the 500 came when I found Stuart Theobald’s Punto SuperSport parked up. Stuart is the “official” photographer for the venue, and indeed it was his photos that had acted as the encouragement to attend. He was one of the first people I saw when I arrived, so I knew his car would be somewhere, and sure enough, it was tucked away round the back of the hotel. During the course of the day, there were a couple more Punto SuperSports here as well.
Unusually for an Italian car event, Alfa Romeo was far from the dominant marque, with only around a dozen examples of cars from this much loved brand in the display. Oldest of them was a Giulia Berlina 1300 Super. The Giulia was produced from 1962 to 1978 in a bewildering array of similar models, which even the marque enthusiast can find hard to untangle. The styling was quite straight forward, but great attention was paid to detail. The engine bay, cabin and boot were all square shaped. But the grille, the rooflines and details on the bonnet and boot made for an integrated design from bumper to bumper. Thanks to Alfa Romeo using a wind tunnel during its development, the Giulia was very aerodynamic with a drag coefficient of Cd=0.34, which was particularly low for a saloon of the era and not a bad figure even for cars of today. Couple that with the fact that Alfa Romeo was one of the first manufacturers to put a powerful engine in a light-weight car (it weighed about 1,000 kilograms) and thanks to an array of light alloy twin overhead camshaft four-cylinder engine, similar to that of the earlier Giulietta models range, the car had a lively performance which bettered that of many sports cars of the day. The Tipo 105.14 was the first model introduced in 1962. with a 1,570 cc Twin Cam engine with single down-draft carburettor generating 91 hp at 6500 rpm. The “TI” nomenclature referred to a class of Italian saloon car racing known as “Turismo Internazionale”, and had previously been applied to higher-performance versions of the 1900 and Giulietta saloons in the 1950s. However, for the Giulia saloon, the Ti was at first the only version available, and later, with the introduction of the TI Super and Super, the TI became the base version for the 1,600 cc engine class. The steering column gearchange (the only one in the Giulia range) was replaced with a floor change for 1964 (Tipo 105.08). Right hand drive cars, available from 1964, only ever had a floor change (Tipo 105.09). Brakes were by drums all around at first. Discs were introduced later, first at the front, and later all around. A brake servo was not fitted at first, but was introduced in later cars. The steering wheel featured the only horn ring ever in the Giulia range. The dashboard with a strip speedo is a notable feature, as is the steering wheel with a horn ring. The Giulia TI was phased out in 1968 and re-introduced as the austerity model 1600 S. Tipo 105.16 was a special racing model introduced in 1963. Quadrifoglio Verde stickers on the front wings were a distinguishing feature. Only 501 were made for homologation and today it is very rare and desirable. The 1,570 cc engine was fitted with two double-choke horizontal Weber 45DCOE carburettors for 110 hp at 6500 rpm. The body was lightened and a floor gearchange was fitted as standard, as were alloy wheels of very similar appearance to the standard steel ones of the TI. The TI’s instrument cluster with its strip speedometer was replaced with a three-instrument binnacle comprising speedometer, tachometer and a multi-gauge instrument (fuel, water temperature, oil temperature and pressure) – these instruments were similar to those fitted to the contemporary Giulia Sprint and Sprint Speciale coupes and Spider convertibles. The steering wheel was a three-spoke item with centre hornpush, also similar to that of the more sporting models. Braking was by discs all around, although the first cars used drums and early disc models lacked a servo which was introduced later. The police cars seen in The Italian Job were of this type. Tipo 105.06 was an austerity model made from 1964 to 1970 with a 1,290 cc single-carburettor engine for 77 hp at 6000 rpm. Four-speed gearbox with floor change fitted as standard (the 1300 was the only Giulia model not fitted with a five-speed gearbox). Though the engine was given a 105 series type number, it was basically the engine from the 101 series Giulietta Ti. This model appears not to have been exported to many markets outside Italy, if at all. Braking was by discs all around, without a servo at first, later with a servo. Tipo 105.26 was introduced in 1965. It transferred the technology from the racing TI Super to a road car, to make the most successful Giulia saloon. 1,570 cc engine with two double-choke Weber 40DCOE carburettors for a milder, but torquier tune than the TI Super – 97 hp at 5500 rpm. There was a new dashboard with two large round instruments (speedo and tacho) and clock, a sportier steering wheel with three aluminium spokes and centre horn push, similar to that of the Ti Super, later changed for one with the horn pushes in the spokes. All-around disc brakes with servo were fitted as standard from the outset. The serpent crest of the Sforza family appears in a badge on the C-pillar and is a distinguishing feature of the Super. For 1968, there was a suspension update, including revised geometry and a rear anti-roll bar. The wheels were changed in size from 5J x 15 to 5J x 14, and tyres from 155/15 to 165/14. For 1970, updates included dual-circuit brakes, centre-mounted handbrake lever to replace under-dash “umbrella handle”, larger external doorhandles, and top-hinged pedals (the latter in left hand drive models only; right hand drive continued with bottom-hinged pedals to the end of production). In 1972, Tipo 105.26 was rationalised into the Giulia 1.3 – Giulia 1.6 range. Tipo 105.39 built from 1965 to 1972. Right hand drive model replaced in 1970 by the 1300 Super. 1,290 cc engine with single down-draft carburettor for 81 hp at 6000 rpm. Unlike the re-deployed 101-series Giulietta engine of the austerity-model 1300, the 1300 ti motor was a 105 series engine, basically that of the sportier GT1300 Junior coupe with different camshaft timing (but the same camshafts) and induction system. Five-speed gearbox. Three-spoke bakelite steering wheel with plastic horn push covering the centre and spokes. Dashboard initially with strip speedo like that of the TI. For 1968, updates included a dashboard based on that of the Super, but with a simpler instrument binnacle, still featuring two large round instruments (speedo and tacho) and a separate fuel gauge, and the same suspension, wheel and tire updates applied to the Giulia Super in the same year. For 1970, updates included dual-circuit brakes, centre handbrake, larger external doorhandles and top-hinged pedals (on left hand drive cars only), again as applied to the Super for that year. Tipo 105.85 was basically a Giulia TI re-introduced in 1968 as a lower-level model to come between the 1300 and 1300 ti on one hand, and the Super on the other. It had a re-interpretation of the 1,570 cc single-carburettor engine for 94 hp at 5500 rpm and similar trim to the 1300 ti. Replaced in 1970 by the 1300 Super which offered similar performance in a lower tax bracket. The last cars from 1970 featured the top-hinged pedals, centre handbrake and dual-circuit brakes as for the Super and 1300 ti. Tipo 115.09 was introduced in 1970. It was basically a 1300 ti fitted with the engine from the GT 1300 Junior coupe that featured two double-choke horizontal carburettors; the engine actually had the GT 1300 Junior type number. This model was rationalised into the Giulia Super 1.3 – Giulia Super 1.6 range in 1972. In 1972 a rationalisation of the Giulia range saw the Super 1300 (Tipo 115.09) and the Super (Tipo 105.26) re-released as the Super 1.3 and Super 1.6. The two models featured the same equipment, interior and exterior trim, differing only in engine size (1,290 cc and 1,570 cc) and final drive ratio. The 1300 ti was dropped. A small Alfa Romeo badge on the C-pillar is a distinguishing feature, as are hubcaps with exposed wheel nuts. In December 1972 Alfa-Romeo South Africa released the 1600 Rallye. This locally developed more powerful 1600 cc version of the 1300 Super, using the 1300’s single-headlight body shell. The car was largely ready for competition and was only planned to be built in limited numbers, and was fitted with racing-style rear-view mirrors, rally lamps, fully adjustable seats, and a limited-slip differential. Claimed power was 125 hp. The Giulia Super range was re-released in 1974 as the Nuova Super range, including the Giulia Nuova Super 1300 and 1600 This and featured a new black plastic front grille and a flat boot lid without the characteristic centre spine. Otherwise the cars differed little from their Giulia Super predecessors and bore the same Tipo numbers with an S suffix. A Nuova Super fitted with a Perkins 1,760 cc diesel with 54 hp at 4000 rpm, the firm’s first attempt at diesel power. The same Perkins diesel was used also in Alfa Romeo F12 van. The diesel version was slow, 138 km/h (86 mph), and the engine somehow unsuitable for a sport sedan so it was not big seller, only around 6500 examples were made in 1976 and the car was not sold in the UK. Production of the Giulia ceased in 1977. There are relatively few of these cars in the UK, and many of these are left hand drive models which have been re-imported relatively recently, so it was good to see a handful of Berlina models here.
A Coupe model followed a year later. It also evolved over a 14 year production life, though its history is rather easier to understand. The first car was called the Alfa Romeo Giulia Sprint GT. It 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, 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. According to the manufacturer 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. There were a few of these cars here, with a mix of 1750 GT Veloce and later GTV cars present.
Alfa replaced the Giulia-based Spider model with an all-new design which finally made its debut in 1966 together with the Giulia Sprint GT Veloce at an event organised in Gardone Riviera. With its boat tailed styling, it quickly found favour, even before taking a starring role in the film “The Graduate”. The original 1600cc engine was replaced by a more powerful 1750cc unit at the same time as the change was made to the rest of the range, and the car continued like this until 1970, when the first significant change to the exterior styling was introduced on the 1750 Spider Veloce, with the original’s distinctive elongated round tail changed to a more conventional cut-off tail, called the “Kamm tail”, as well as improving the luggage space. Numerous other small changes took place both inside and out, such as a slightly different grille, new doorhandles, a more raked windscreen, top-hinged pedals and improved interior trim. 1971 saw the Spider Veloce get a new, larger powerplant—a 1962 cc, 132 hp unit—and consequently the name was changed from 1750 Spider Veloce to 2000 Spider Veloce. The 1600 Spider restarted production a year later as the Spider 1600 Junior, and was visually identical to the 1300. 1974 saw the introduction of the rare, factory request, Spider-Targa. Based upon the Spider, it featured a Porsche style solid rear window and lift out roof panels, all made out of black GRP type material. Less than 2,000 models of such type were ever made and was the only part solid roof Spider until the introduction of the factory crafted hard top. The 1300 and 2000 cars were modified in 1974 and 1975 respectively to include two small seats behind the front seats, becoming a “two plus two” four seater. The 1300 model was discontinued in 1977. Also, between 1974 and 1976, the early-style stainless-steel bumpers were discontinued and replaced with black, rubber-clad units to meet increasingly stringent North American crash requirements. 4,557 examples of the 1300 Junior were made and 4,848 of the 1600 Junior as well as 16,320 2000 Spider Veloces and 22,059 of 2000 Spider Veloce US version. There were also 4,027 1750 Spider Veloces produced. Seen here were a couple of Series 2 models.
During the 1950s, Alfa underwent 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.
Far more prosaic than the Montreal was this car, an AlfaSud Ti Series 3, but to many an enthusiast, this is just as desirable. Not perhaps for the looks, which many will tell you did not get better when the then fashionable plastic bumpers and grille were applied to the car as part of the 1980 Series 3 changes, but because of the way this car drove. 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. That should not detract from the splendour of the models on show at this event. 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 equaled 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 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.
As was still the practice in the 1970s, Alfa followed up the 1972 launch of the Alfetta Berlina with a very pretty coupe. Styled by Giugiaro, this car, initially called the GT, and premiered in the autumn of 1974, looked completely unlike the saloon on which it was based. The first cars had 1.8 litre four cylinder engines and there was one of those on show. In 1976 the range was expanded both up and down with a 1.6 and a 2.0 model, the latter adopting the legendary GTV name. A rare SE model from this period was part of the display, complete with period vinyl roof (look closely), and although the pain does appear a bit like a lot of older Alfa reds, having gone rather pink, this was the actual shade when the car was new. In 1981, with the 2.5 litre V6 engine that had been developed for the ill-fated Alfa 6 luxury saloon available, Alfa was able to create a true rival for the 2.8 litre Capri with the GTV6. A facelift modernised the look of the car with plastic bumpers front and rear and a new interior looked rather better as well as being more ergonomically logical. There was a good mix of the earlier chrome bumpered and later plastic bumpered models, the last with 2.0 and 2.5 GTV6 versions both represented. There was also a car sporting 3.0 badging and right hand drive. This is a South African car. From 1974 South African Alfetta’s were manufactured at Alfa Romeo’s own Brits plant. South Africa was one of two markets to have a turbocharged GTV6, with a Garrett turbocharger and a NACA intake. An estimated 750 were assembled before all production ceased in 1986. The South African range included a 3.0 litre GTV-6, predating the international debut of the factory’s 3.0 litre engine in 1987 (for the Alfa 75). and 212 of these were built in South Africa for racing homologation. The last 6 GTV-6 3.0’s were fuel injected. To this day, the GTV-6 remains the quintessential Alfa Romeo for South Africans.
There were also a couple of examples here of the last Alfa model to be developed before the company was bought by Fiat. This was the 75, which was introduced in May 1985, to replace the 116 Series Giulietta with which it shared many components. It was named to celebrate Alfa’s 75th year of production. The body, designed by head of Alfa Romeo Centro Stile Ermanno Cressoni, was styled in a striking wedge shape, tapering at the front with square headlights and a matching grille. The 75 was only ever sold as a four door saloon, though at the 1986 Turin Auto Salon, a prototype 75 estate was to be seen, an attractive forerunner of the later 156 Sportwagon. This version was, however, never listed for sale, being cancelled after Fiat took control of Alfa Romeo. The car, dubbed the 75 Turbo Wagon, was made by Italian coachbuilder Rayton Fissore using a 75 Turbo as the basis. Two estate versions were to be found at the later 1987 Geneva Motor Show; one was this Turbo Wagon and the other was a 2.0 litre version named the Sportwagon. The 75 featured some unusual technical features, most notably the fact that it was almost perfectly balanced from front to rear. This was achieved by using transaxle schema — mounting the standard five-speed gearbox in the rear connected to the rear differential (rear-wheel drive). The front suspension was a torsion bar and shock absorber combination and the rear an expensive de Dion tube assembled with shock absorbers; these designs were intended to optimize the car’s handling; moreover the rear brake discs were fitted at the centre of the rear axle, near the gearbox-differential group. The engine crankshaft was bolted directly to the two-segment driveshaft which ran the length of the underside from the engine block to the gearbox, and rotated at the speed of the engine. The shaft segments were joined with elastomeric ‘doughnuts’ to prevent vibration and engine/gearbox damage. The 2.0 litre Twin Spark and the 3.0 Litre V6 were equipped with a limited slip differential. The 75 featured a then-advanced dashboard-mounted diagnostic computer, called Alfa Romeo Control, capable of monitoring the engine systems and alerting the drivers of potential faults. The 75 engine range at launch featured four-cylinder 1.6, 1.8 and 2.0 litre petrol carburettor engines, a 2.0 litre intercooled turbodiesel made by VM Motori, and a 2.5 litre fuel injected V6. In 1986, the 75 Turbo was introduced, which featured a fuel-injected 1779 cc twin-cam engine using Garrett T3 turbocharger, intercooler and oil cooler. In 1987, a 3.0 litre V6 was added to the range and the 2.0 lire Alfa Romeo Twin Cam engine was redesigned to have now two spark plugs per cylinder, the engine was named as Twin Spark. With fuel injection and variable valve timing this engine produced 146 hp. This was the first production engine to use variable valve timing. In North America, where the car was known as the Milano, only the 2.5 and 3.0 V6s were available, from 1987 to 1989. The North American 2.5-litres were fundamentally different from their European counterparts. Due to federal regulations, some modifications were required. Most noticeable from the outside were the ‘America’ bumpers, with the typical rubber accordions in them. Furthermore, these bumpers had thick (and heavy) shock-absorbing material inside them and in addition, they were mounted to the vehicle on shock absorbers. To accommodate these shock absorbers, the ‘America’-bodies were slightly different from the European ones. The North American cars also had different equipment levels (depending on the version: Milano Silver, Milano Gold or Milano Platinum). electrically adjustable outside mirrors, electrically reclining seats and cruise control were usually optional in Europe. The car was also available with a 3-speed ZF automatic gearbox option for the 2.5 V6. Other, more common options such as electrically operated rear windows and an A/C system were standard in the USA. The USA-cars also had different upholstery styles and of course different dashboard panels also indicating speed in mph, oil pressure in psi and coolant temperature in degrees F, and as a final touch the AR control was different, including a seat belt warning light. The European-spec 2.5 V6 (2.5 6V Iniezione or 2.5QV) was officially sold only between 1985 and 1987, although some of them were not registered until 1989. Relatively few of them were sold (about 2800 units), especially when the 155 PS 1.8 Turbo was launched, which in some countries was cheaper in taxes because of its lower displacement. To create a bigger space between the V6 and the inline fours, the 2.5 was bored out to 2959 cc’s to deliver 188 PS and this new engine was introduced as the 3.0 America in 1987. As its type designation suggests, the 3.0 only came in the US-specification, with the impact-bumpers and in-boot fuel tank. However, the European ‘America’s’ were not equipped with side-markers or the door, bonnet and boot lid fortifications. Depending on the country of delivery, the 3.0 America could be equipped with a catalytic converter. In 1988 engines were updated again, the 1.8 litre carburettor version was replaced with fuel injected 1.8 i.e. and new bigger diesel engine was added to the range. In the end of 1989 the 1.6 litre carburettor version was updated to have fuel injection and 1990 the 1.8 Turbo and 3.0i V6 got some more power and updated suspension. The 3.0 V6 was now equipped with a Motronic system instead of an L-Jetronic. The 1.8 Turbo was now also available in ‘America’-spec, but strangely enough not available for the USA market. The 3.0 V6 did make it to the United States, and was sold as Milano Verde. The UK never particularly warmed to the 75 when it was new, but its reputation has got ever stronger as the car ages. Many UK cars were snapped up by the owners of driving schools at racing circuits, thanks to its handling characteristics, but there are also some nice road cars left such as this duo.
As is increasingly becoming the case, the most numerous Alfa model here were the several example of the 916 Series cars, better known as the GTV and Spider. That is perhaps not a huge surprise, as this was one of those cars which achieved classic status almost before production ceased, and thanks to the much improved rust protection and build quality standards of the late 90s, the survival rate is good. Prices for the remaining cars did continue to diminish for some time but in recent months they have started to increase suggesting that the market has seen the appeal of these cars, something the owners (and I write as someone who did own a GTV 2.0 TS Lusso for eighteen months) did not need to be told. The 916 Series cars were conceived to replace two very different models in the Alfa range. First of these was the open topped 105 Series Spider which had been in production since 1966 and by the 1990s was long overdue a replacement. Alfa decided to combine a follow on to the Alfetta GTV, long out of production, with a new Spider model, and first work started in the late 1980s. The task was handed to Pininfarina, and Enrico Fumia’s initial renderings were produced in September 1987, with the first clay models to complete 1:1 scale model made in July 1988. Fumia produced something rather special. Clearly an Italian design, with the Alfa Romeo grille with dual round headlights, recalling the Audi-based Pininfarina Quartz, another design produced by Enrico Fumia back in 1981, the proposal was for a car that was low-slung, wedge-shaped with a low nose and high kicked up tail. The back of the car is “cut-off” with a “Kamm tail” giving improved aerodynamics. The Spider would share these traits with the GTV except that the rear is rounded, and would feature a folding soft-top with five hoop frame, which would completely disappear from sight under a flush fitting cover. An electric folding mechanism would be fitted as an option. Details included a one-piece rear lamp/foglamp/indicator strip across the rear of the body, the minor instruments in the centre console angled towards the driver. The exterior design was finished in July 1988. After Vittorio Ghidella, Fiat’s CEO, accepted the design, Alfa Romeo Centro Stile under Walter de Silva was made responsible for the completion of the detail work and also for the design of the interiors, as Pininfarina’s proposal was not accepted. The Spider and GTV were to be based on the then-current Fiat Group platform, called Tipo Due, in this case a heavily modified version with an all new multilink rear suspension. The front suspension and drivetrain was based on the 1992 Alfa Romeo 155 saloon. Chief engineer at that time was Bruno Cena. Drag coefficient was 0.33 for the GTV and 0.38 for the Spider. Production began in late 1993 with four cars, all 3.0 V6 Spiders, assembled at the Alfa Romeo Arese Plant in Milan. In early 1994 the first GTV was produced, with 2.0 Twin Spark engine. The first premiere was then held at the Paris Motor Show in 1994. The GTV and Spider were officially launched at the Geneva Motor Show in March 1995 and sales began the same year. The cars were well received. At launch, many journalists commented that Alfa had improved overall build quality considerably and that it came very close to equalling its German rivals. I can vouch for that, as I owned an early GTV for eighteen months, and it was a well built and reliable car. In 1997 a new engine, a 24-valve 3.0 litre V6, was available for the GTV along with bigger, 12.0 inch brakes and red four-pot calipers from Brembo. The console knobs were changed from round central to rectangle ones and to a three-spoke steering wheel. Some versions were upgraded with different front bumper mesh to bring the wind noise down to 74 dBA. In May 1998 the cars were revamped for the first time, creating the Phase 2 models. Most of the alterations were inside. The interior was changed with new centre console, painted letters on skirt seals, changed controls and switches arrangement and different instrument cluster. Outside, the main changes included chrome frame around the grille and colour-coded side skirts and bumpers. A new engine was introduced, the 142 hp 1.8 Twin Spark, and others were changed: the 2.0 Twin Spark was updated with a modular intake manifold with different length intakes and a different plastic cover. Power output of the 2.0 TS was raised to 153 hp. Engines changed engine management units and have a nomenclature of CF2. The dashboard was available in two new colours in addition to the standard black: Red Style and Blue Style, and with it new colour-coded upholstery and carpets. The 3.0 24V got a six-speed manual gearbox as standard and the 2.0 V6 TB engine was now also available for the Spider. August 2000 saw the revamp of engines to comply with new emission regulations, Euro3. The new engines were slightly detuned, and have a new identification code: CF3. 3.0 V6 12V was discontinued for the Spider and replaced with 24V Euro3 version from the GTV. 2.0 V6 Turbo and 1.8 T.Spark were discontinued as they did not comply with Euro3 emissions. By the 2001-2002 model year, only 2 engines were left, the 2.0 Twin.Spark and 3.0 V6 24V, until the Phase 3 engine range arrived. The Arese plant, where the cars had been built, was closing and, in October 2000, the production of GTV/Spider was transferred to Pininfarina Plant in San Giorgio Canavese in Turin. In 2003 there was another and final revamp, creating the Phase 3, also designed in Pininfarina but not by Enrico Fumia. The main changes were focused on the front with new 147-style grille and different front bumpers with offset numberplate holder. Change to the interior was minimal with different centre console and upholstery pattern and colours available. Instrument illumination colour was changed from green to red. Main specification change is an ASR traction control, not available for 2.0 TS Base model. New engines were introduced: 163 hp 2.0 JTS with direct petrol injection and 237 hp 3.2 V6 24V allowing a 158 mph top speed. Production ceased in late 2004, though some cars were still available for purchase till 2006. A total of 80,747 cars were made, and sales of the GTV and Spider were roughly equal. More V6 engined GTVs than Spiders were made, but in 2.0 guise, it was the other way round with the open model proving marginally more popular. Among the cars seen here were regular GTV and Cup cars as well as a late model Spider.
Representing one of a pair of Alfa models which collected the “Car of the Year” award when new was this 147, seen in limited edition Collezione guise. The 147 was launched at the 2000 Turin Motor Show as a replacement for the 145 and 146 hatchbacks, and based on the running gear of the larger 156 saloon. Designed by Walter de’Silva and Wolfgang Egger, the 147 received considerable praise for its styling on launch, later it was awarded with some styling awards. It was available initially with 1.6, 2.0, petrol engines and a 1.9-litre diesel engine. A sequential, paddle operated ‘Selespeed’ transmission was available from launch. Two trim levels were available, Turismo and Lusso. The 147 was the first Alfa Romeo to feature dual-zone climate control and electronic traction control. Although some thought the car had lost of some of the Alfa magic, it was well received and was awarded the Car of the Year trophy a few weeks after launch. The entire 147 range was revamped in 2004, with the exterior styling changed considerably to be more reminiscent of the new 159 and Brera models, and Alfa Romeo Visconti concept car, most notably for its more aggressive look, with a new front grille, new headlights, new rear lights and the interior was updated on all models besides the GTA version. A new more powerful diesel engine arrived and suspension was also tweaked. In 2006, the 147 1.9 JTD Q2 version was launched, which featured a front Torsen limited slip differential. Alfa Romeo presented a new limited edition 147 called Ducati Corse at the 2007 Bologna Motor Show. The car came equipped with a 170 PS (168 hp) JTD diesel engine and Q2, a front Torsen limited slip differential. The 147 was in production for ten years, making it one of the oldest small family cars on sale in Europe at the time of its replacement by the Alfa Romeo Giulietta in late May 2010. In total around 580,000 cars were made. The Collezione version first appeared as a limited edition car in 2007, 500 of which were made available to the UK, and was then made a more permanent feature of the range for 2008. It featured lowered suspension, new paint combinations including a striking Ghiaccio White special paint finish, along with the unique option of a black gloss roof, a leather interior and exclusive 17 inch alloy wheels, as well as additional items of standard equipment. It was available with both the 3 and 5 door bodies and the choice of the 1.6 litre petrol or 1.9 diesel engines.
Follow on to the 916 series GTV and Spider were the Brera models. 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. It is the Spider that you see more frequently these days and indeed that was the version on show here.
Final Alfa here was an example of the 4C Spider. First seen as a concept at the 2011 Geneva Show, the definitive Coupe 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! – and most love their car. The Spider model followed in 2015, with the first examples of these reaching owners around the turn of the year, and when these cars gather now, you are just as likely to see a Spider as a Competizione.
One of the star attractions of the event, and accordingly given a prominent parking position right in the middle of the event was the Oakley Veyron. You might have thought that a factory-fresh Veyron is special enough, but for some buyers it would seem that this is not the case. In 2015, British after-market developer Oakley Design announced a 1,600 hp Veyron with a carbon body. The results of their endeavours were to be seen with this car, which made its debut earlier in the year, much to the delight of the spotters of London (and elsewhere). Compared to the standard car, it has gained 200 hp and lost 50 kg (110 lbs), the former achieved by an ECU remap. Despite this being an elaborate effort from JF Automotive, there was a certain amount of disappointment at the difference between the promise and the result. Visually, the exposed carbon and the high-quality work have to fight the sheer flashiness of the project. The carbon full body armour was apparently tweaked in the MIRA wind tunnel. The end result is certainly striking and this was a definite crowd puller all day.
There were more Ferrari models here than anything else, thanks to a sterling effort not just from Ciro himself, but also the local chapter of the Ferrari Owners Club, who also provided much appreciated manpower to help position cars on the day, which was particularly useful given the aspiration to park the cars in a timeline, ie in chronological order, not something that was going to happen easily with cars arriving in random sequence and often in conjunction with a large number of other vehicles which had to be moved from the main thoroughfare to avoid cars backing up onto the main road. It was managed, and there was a great display of Ferrari models, with at least one example of just about every model type produced over the last 40 years. There was a huge Ferrari cake, too, produced to celebrate the 10th anniversary of this event, and this was cut into slices for all attendees mid afternoon – and very delicious it was. too.
Oldest model here, and still seen by many as the most beautiful Ferrari ever built was the 246 GT Dino and there was a splendid examples of this car here. The Ferrari Dino was created to honour Alfredo ‘Dino’ Ferrari, Enzo Ferrari’s only legitimate son, who sadly died of muscular dystrophy in 1956. Unlike any previous road-going Ferrari, the Dino utilised a V6 engine, the Tipo 156, which Alfredo himself had helped develop and strongly advocated during his working life. Following continued motor racing success and in order to homologate Ferrari’s 1966 Formula Two campaign, a new line of mid-engined production V6 coupés with Fiat running gear went on sale in 1967 in two litre 206 GT form. However, in 1969 a larger 2.4 litre Dino was introduced, named the 246 GT or GTS in the case of the Spider. Only 3,913 definitive Dinos were built before the introduction of the completely restyled V8 engined 308 in 1973. The voluptuous bodywork of the 246, which many regard as the prettiest ever to grace a road-going Ferrari, was designed by Pininfarina and built by Scaglietti. It clothed a tubular chassis which carried wishbone independent suspension at each corner. The compact four-cam, 190bhp. engine was mounted transversely above the five-speed gearbox and just ahead of the rear axle, allowing for both a comfortable cockpit and some usable boot space.
The 308 GT4 Dino was launched at the Paris Motor Show in 1973. It only gained the “Prancing Horse” badge in May 1976, replacing 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.
Oldest of the V12-engined four seater models was this 400i, an elegant ,model that has languished in the doldrums of affection for far too long, but which is gradually gaining new fans, as people realise that it is not just worthy of the Ferrari badge on the front, but also an elegant and surprisingly practical Grand Tourer. The 400 was an evolution of the 365 GT4 2+2, which was first seen at the 1976 Paris Motor Show. It proved quite controversial, as this was the first Ferrari to be offered with an automatic gearbox, a Borg Warner 3-speed unit, though a five speed manual was also offered. The 365’s V12 engine had been stroked to a displacement of 4.8 litres and given six 38 DCOE 110-111 Webers, and now produced 340 PS. 0-60 mph took 7.1 seconds. Other changes compared to the 365 GT4 included five-stud wheels to replace the knock-off hubs (Borrani wheels weren’t offered anymore), a revised interior, the addition of a lip to the front spoiler, and double circular tail light assemblies instead of triple. A total of 502 examples were produced, 355 of which were Automatics and 147 GTs before a further upgrade in 1979 which saw the addition of fuel injection. It was replaced by the visually similar 412i in 1985. which had a larger 5 litre engine. Production of this version ran for 4 years, meaning that by the time the model was deleted from the range, this elegant Pininfarina design had been produced for 17 years, the longest run of any Ferrari bodystyle ever. It was some years before another 4 seater V12 Ferrari would join the range, the 456 GT in 1994.
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 fro 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 and indeed it was a 328 GTS that was here.
Produced alongside the 308/328 GTB and GTS models was the Mondial, and there were a number of 3.2 versions of the car on show. Produced by Ferrari from 1980 through 1993, it 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 nice example 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.
With styling that had a close link to the Testarossa, the next Ferrari to be launched, in 1989, was the 348, as a replacement for the 328 GTB/GTS models. At launch, the 348 series were not that enthusiastically received by the press who found much to complain about. The 348’s styling differed from previous models with straked side air intakes and rectangular taillights resembling the Testarossa. Launched in two models, a coupe badged 348 tb (Trasversale Berlinetta) and targa roofed 348 ts (Targa), these were soon joined by a fully open car, the 348 Spider. All featured a normally aspirated 3.4-litre version of the quad-cam, four-valve-per-cylinder V8 engine. As with its predecessors, the model number was derived from this configuration, with the first two digits being the displacement and the third being the number of cylinders. The engine, which produced 300 hp was mounted longitudinally and coupled to a transverse manual gearbox, like the Mondial t with which the 348 shared many components. This was a significant change for Ferrari, with most previous small Ferraris using a transverse engine with longitudinal transmission. The “T” in the model name 348 tb and ts refers to the transverse position of the gearbox. The 348 was fitted with dual-computer engine management using twin Bosch Motronic ECUs, double-redundant anti-lock brakes, and self-diagnosing air conditioning and heating systems. Late versions (1993 and beyond) have Japanese-made starter motors and Nippondenso power generators to improve reliability, as well as the battery located within the front left fender for better weight distribution. Similar to the Testarossa but departing from the BB 512 and 308/328, the oil and coolant radiators were relocated from the nose to the sides, widening the waist of the car substantially, but making the cabin much easier to cool since hoses routing warm water no longer ran underneath the cabin as in the older front-radiator cars. This also had the side effect of making the doors very wide. The 348 was equipped with a dry-sump oil system to prevent oil starvation at high speeds and during hard cornering. The oil level can only be accurately checked on the dipstick when the motor is running due to this setup. The 348 was fitted with adjustable ride-height suspension and a removable rear sub-frame to speed up the removal of the engine for maintenance. Despite trenchant criticism of the car, especially its handling, 2,895 examples of the 348 tb and 4,230 of the 348 ts were produced.
Launched in May 1994 as an evolution of the Ferrari 348, just about everything was changed, and improved for the F355, seen here in open-topped Spider guise. 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.
A front-engined grand tourer, the 456 was produced from 1992 until 2003, as an overdue replacement for the long-defunct front-engined 412 as the company’s V12 four seater. Pietro Camardella and Lorenzo Ramaciotti at Pininfarina designed the original 456 which was available in GT and from 1996 in GTA forms. The difference in name signifies the transmission: the former has a six-speed manual and the latter has a four-speed automatic developed in partnership with FF Developments, in Livonia, MI (which was later purchased by Ricardo Engineering in the UK). This was only the fourth automatic transmission ever offered by Ferrari. The 5473 cc 65° V12 engine was derived from the Dino V6 rather than the more conventional 60° V12s used in the 412 and Daytona. It produced 442 PS with 4 valves per cylinder and Bosch Motronic M2.7 engine management. It could push the 1690 kg car and four passengers to 302 km/h (188 mph) making it the world’s fastest production four-seater. Acceleration to 100 km/h was just 5.2 seconds, with a 13.4 second quarter-mile time. At the time of its development it was the most powerful road car ever developed by Ferrari (aside from the F40). In 1996 engine was changed with Motronic M5.2 management and typed as F116C. The name 456, as was Ferrari practice, came from the fact that each cylinder displaces 456 cubic centimeters. This was the last Ferrari to use this naming convention. Despite its supercar performance, the 456 has a relatively unstressed engine, which has proven to be a very reliable unit. The chassis is a tubular steel spaceframe construction with a one-piece composite bonnet and body panels of aluminium. The body panels are welded to the chassis by using a special “sandwich filler” called feran that, when laid between, allows steel and aluminium to be welded. The Modificata 456M appeared in 1998, starting with chassis number 109589. Many changes were made to improve aerodynamics and cooling, and the interior – still featuring Connolly Leather – was freshened with new seats and other conveniences (fewer gauges on dash, and a new Becker stereo fitted in front of gear stick rather than behind as in the very shallow and special Sony head unit in the 456 GT). The 456 has a smaller grille with fog lights outside the grille, and lacked the bonnet-mounted air scoops. The undercarriage spoiler on the 456M is fixed, where the older 456 had a motorised spoiler that began its deployment above 105 km/h (65 mph). Power remained unchanged on the Modificata using Bosch Motronic M5.2 engine management at 442 PS; the cylinder firing order was changed for smoother running, and the torque remained the same for later versions of the 456 GT. The Tour de France Blue with Daytona Seats was the most desirable colour and leather combination. Approximately 3,289 of all versions were built, consisting of: 456 GT: 1,548; 456 GTA: 403; 456M GT: 688; 456M GTA: 650.
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 centre 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.
Next up was the F430, a car which 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 its predecessor, the Ferrari 360, 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 465 N·m (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. There were several of these cars here.
Follow on to the 456 was the 612 Scaglietti, which adopted the same formula of a shapely body offering 4 seats and a potent V12 to power it, though the car never really found the favour you might have expected. It was launched in 2004, and produced until 2011 at which point it was replaced by the FF.
The Ferrari 599 GTB (internal code F141) became the brand’s two-seat 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 608 N·m (448 ft·lbf) 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.
Launched as a so-called “entry level” car, though still unattainable for all but the super-well-heeled, is the California, which was launched at the 2008 Paris Motor Show. 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; Ferrari denies this, however. The California represented a new, fourth model range for the company, with a (slightly) lower purchase price. A two-door 2+2 hard top convertible, when originally released, it was powered by a front-mid mounted naturally aspirated 4.3-litre V8. In 2014 Ferrari introduced the second generation of the model, named California T and using a new twin-turbo 3.9-litre V8. The California represented a number of firsts for Ferrari: the first front engined Ferrari with a V8; the first to feature a 7-speed dual-clutch transmission; the first with a folding metal roof; the first with multi-link rear suspension; the first with direct petrol injection. 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. The California was built on a new production line adjacent to the existing factory at Maranello, capable of producing 27 cars per day, or 6,000 per year. Throughout the California’s production, only 3 cars had been built with manual transmission, including one order from the UK. It became the last Ferrari to be offered with a manual gearbox. The new California T was also here.
Next up was the 458, of which there were examples of all the versions produced. 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.
Also here were examples of the 458 Speciale, and the open=topped Speciale A, the latest of a long line of specially engineered cars added to complement the “regular” V8 models that started with the 100 units of the 348 Speciale produced in 1992, and followed up by the 360 Challenge Stradale, the 430 Scuderia and the 16M. In essence they are all about adding power and shedding weight. In simplistic terms, the road to the Speciale can be summed up in four words: more power, less weight. There are other, more detailed changes, too, obviously, but those are the cornerstones around which everything else is shaped. The normally aspirated, flat-plane crank V8 retains its 4497cc swept capacity but receives new cam geometry with higher valve lift, shorter inlet manifolds and different pistons providing a higher compression ratio. Internal friction is reduced, through the use of uprated materials and the upshot is 597bhp (up from 562bhp) generated at the engine’s 9000rpm limit. Torque is the same, at 398lb ft, still delivered at 6000rpm. The engine is mated to a seven-speed, dual-clutch gearbox whose upshifts, we were told at the launch of such gearboxes, are all but instant. That’s still true, but Ferrari has improved the response time to a pull on the lever and made the engine rev-match more quickly on downshifts to reduce the time that those take. The engine’s changes shave 8kg from the car’s overall weight – the exhaust is all aluminium and the intake is carbonfibre. Those 8kg form part of a claimed 90kg total saving at 1395kg now, versus 1485kg for a 458 Italia. Of this 90kg, 12kg is contributed by lighter, forged wheels, 13kg comes from bodywork and window changes (lighter glass all round and Lexan for the engine cover), and 20kg comes from the cabin. There are two flaps on the Speciale’s front valance, one either side of the prancing horse badge in its centre. Below 106mph these flaps remain closed, which diverts air towards the radiators. Above that speed, the radiators get quite enough cool air, thanks very much, so the flaps open, which reduces drag. Then, above 137mph, they move again, lowering to shift downforce to the rear of the car, in turn adjusting the balance 20 per cent rearward in order to promote high-speed cornering stability. At the rear, meanwhile, there is a new diffuser (the exhausts have been rerouted to make the most of its central section). Movable flaps in the diffuser adjust, but this time they are dependent not only on speed but also on steering angle and throttle or brake position. When lowered, the flaps stall the path of air into the diffuser and improve the Cd by 0.03. When raised, the diffuser adds downforce as it should. Bodywork changes, though, also bring some aerodynamic improvements, you’ll not be surprised to hear, with lessons applied from the LaFerrari and FXX programmes. In the front valance and under the rear diffuser, there are flaps that open at speed to reduce drag and improve downforce. Finally, there are new Michelin Pilot Sport Cup 2 tyres in a unique compound – rather a sticky one, we suspect – plus new calibration for the adaptive dampers. The carbon-ceramic brake discs also use a new compound. 499 of them were built and they sold out very quickly.
Also a current model, the flagship F12 Berlinetta was of course present here.
Impressive though all these were, what was really great was that were examples of all 5 of the special models which we tend now to think of as Hypercars which have produced at random intervals over the past 32 years . It is not often you get to see all 5 in one place and certainly not when you can get quite so close to them for a really good look, and hear them in action as they arrived and departed.
First of these, and still my personal favourite, was the 1984 288 GTO. The GTO was built to compete in the new Group B Race series and a minimum of 200 cars were required for homologation. However, after the death of Henri Toivonen and his co-driver Sergio Cresto in the 1986 Tour de Corse, the FIA disestablished the class, leaving just the Group A Rally championship. As a result, the GTO never raced and all 272 cars built remained purely road cars. Some of the GTO’s styling features were first displayed on a 308 GTB design exercise by Pininfarina shown at the 1977 Geneva Salon. The 288 GTO started out as a modified version of the 308/328 to hold down costs and to build the car quickly, but little of the 308/328 was left when the 288 GTO was finished. Easily noticeable differences were the GTOs bulging wing flares, larger front/rear spoilers, large “flag-style” outside mirrors and four driving lights at the far sides of the grille. Retained from the original 250 GTO were slanted air vents, put in the GTO’s rear wings to cool the brakes. The GTO also had wider body panels than the 308’s because they had to cover much larger Goodyear tyres mounted on racing wheels. The suspension’s height could be set higher for road use and lower for racing on tracks. Bodywork material was new and lighter for better acceleration and handing. The GTO’s weight was only 2,555 pounds, compared to 3,085-3,350 for the 308/328. Steel was used just for the doors because major body panels were made from moulded fibreglass. Kevlar was used for the engine cover, and the roof was made from Kevlar and carbon fibre. The “288” refers to the GTO’s 2.8 litre V8 engine as it used a de-bored (by 1 mm) V8 with twin IHI turbochargers, intercoolers, and Weber-Marelli fuel injection. The 2855 cc engine capacity was dictated by the FIA’s requirement for a Turbocharged engine’s capacity to be multiplied by 1.4. This gave the GTO a theoretical engine capacity of 3997 cc, just under the Group B limit of 4.0 litres. Unlike the 308’s 2926 cc engine, the GTO’s 2855 cc engine was mounted longitudinally, using the 308’s rear boot space. This was necessary to make room for the twin turbochargers and intercoolers. The racing transmission was mounted to the rear of the longitudinal engine, moving the rear differential and wheels aft. The arrangement also let the GTO use a more conventional race-car engine/transmission layout for such things as quick gear ratio changes for various tracks. As a result, the wheelbase was 110 mm (4.3 in) longer at 2,450 mm (96 in). The track was also widened to accommodate wider wheels and tyres to provide increased cornering and braking performance and the ability to apply 400 hp and 366 lb·ft of torque to the ground. The GTO was an impressive performer, with 0-60 mph times around 5 seconds. Ferrari claimed 0-125 mph (201 km/h) in 15 seconds flat and a top speed of 189 mph (304 km/h), making it the first street-legal production car to reach 300 km/h.
The F40 of 1987 was the successor to the 288 GTO. It was designed to celebrate Ferrari’s 40th anniversary and was the last Ferrari automobile personally approved by Enzo Ferrari. At the time it was Ferrari’s fastest, most powerful, and most expensive car for sale. As soon as the 288 GTO was launched, Ferrari started the development of an evolution model, intended to compete against the Porsche 959 in FIA Group B. However, when the FIA brought an end to the Group B category for the 1986 season, Enzo Ferrari was left with five 288 GTO Evoluzione development cars, and no series in which to campaign them. Enzo’s desire to leave a legacy in his final supercar allowed the Evoluzione program to be further developed to produce a car exclusively for road use. In response to the quite simple, but very expensive car with relatively little out of the ordinary being called a “cynical money-making exercise” aimed at speculators, a figure from the Ferrari marketing department was quoted as saying “We wanted it to be very fast, sporting in the extreme and Spartan,” “Customers had been saying our cars were becoming too plush and comfortable.” “The F40 is for the most enthusiastic of our owners who want nothing but sheer performance. It isn’t a laboratory for the future, as the 959 is. It is not Star Wars. And it wasn’t created because Porsche built the 959. It would have happened anyway.” Power came from an enlarged, 2936 cc version of the GTO’s twin IHI turbocharged V8 developing 478 bhp. The F40 did without a catalytic converter until 1990 when US regulations made them a requirement for emissions control reasons. The flanking exhaust pipes guide exhaust gases from each bank of cylinders while the central pipe guides gases released from the wastegate of the turbochargers. Engines with catalytic converters bear F120D code. The suspension was similar to the GTO’s double wishbone setup, though many parts were upgraded and settings were changed; the unusually low ground clearance prompted Ferrari to include the ability to raise the vehicle’s ground clearance when necessary. The body was an entirely new design by Pininfarina featuring panels made of Kevlar, carbon fibre, and aluminium for strength and low weight, and intense aerodynamic testing was employed. Weight was further minimised through the use of a plastic windscreen and windows. The cars did have air conditioning, but had no sound system, door handles, glove box, leather trim, carpets, or door panels. The first 50 cars produced had sliding Lexan windows, while later cars were fitted with wind down windows. The F40 was designed with aerodynamics in mind. For speed the car relied more on its shape than its power. Frontal area was reduced, and airflow greatly smoothed, but stability rather than terminal velocity was a primary concern. So too was cooling as the forced induction engine generated a great deal of heat. In consequence, the car was somewhat like an open-wheel racing car with a body. It had a partial undertray to smooth airflow beneath the radiator, front section, and the cabin, and a second one with diffusers behind the motor, but the engine bay was not sealed. Nonetheless, the F40 had an impressively low Cd of 0.34 with lift controlled by its spoilers and wing. The factory never intended to race the F40, but the car saw competition as early as 1989 when it debuted in the Laguna Seca Raceway round of the IMSA, appearing in the GTO category, with a LM evolution model driven by Jean Alesi, finishing third to the two faster space-framed four wheel drive Audi 90 and beating a host of other factory backed spaceframe specials that dominated the races. Despite lack of factory backing, the car would soon have another successful season there under a host of guest drivers such as Jean-Pierre Jabouille, Jacques Laffite and Hurley Haywood taking a total of three second places and one third. It would later be a popular choice by privateers to compete in numerous domestic GT series. Although the original plan was to build jyst 400 cars, such was the demand that in the end, 1311 were built over a 4 year period.
Fans who wanted to see what Ferrari would do next did not have too long to wait, as the next hypercar, the F50 appeared 4 years later, in 1995. This could almost be seen as a Formula 1 car for the road, as this mid-engined two seat roadster with a removable hardtop had a 4.7 litre naturally aspirated 60-valve V12 engine that was developed from the 3.5 litre V12 used in the 1990 Ferrari 641 Formula One car. Only 349 cars were made, of which 301 were red. Just 4 of them were black, making it, along with silver the least produced colour of the limited palate offered. The last F50 was produced in July 1997. These days this is the rarest of the quintet.
There was a bigger gap before the next car came along. Widely rumoured to be called the F60, Ferrari surprised everyone at its 2002 unveiling by giving it the name Enzo. This car was built using even more Formula One technology, such as a carbon-fibre body, F1-style electrohydraulic shift transmission, and carbon fibre-reinforced silicon carbide (C/SiC) ceramic composite disc brakes. Also used were technologies not allowed in F1 such as active aerodynamics and traction control. After a downforce of 7600 N (1700 lbf) is reached at 300 km/h (186 mph) the rear wing is actuated by computer to maintain that downforce. The Enzo’s F140 B V12 engine was the first of a new generation for Ferrari. It was based on the design of the V8 found in Maserati’s Quattroporte, using the same basic design and 104 mm (4.1 in) bore spacing. The Enzo formed the basis for a whole array of other very special cars, including the FXX and FXX Evoluzione cars and the Maserati MC12 and MC12 Evoluzione as well as the Ferrari P4/5 and the Millechilli. Originally, 349 of these were going to be produced, but Ferrari decided to add another 50 to the total, meaning 400 in total were produced up until 2004.
If you wanted the next in the series, the 2013 LaFerrari, it was almost a pre-requisite that you had bought one of all the others, and probably a few other Ferraris as well. 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! This is still the Maranello marque’s latest state-of-the-art hypercar, following a rich bloodline of ultra-exotic limited production models from including all the models just depicted above. Despite being Ferrari’s fastest production road car of all time (with a claimed top speed of 217 mph/350 km/h), this 950 bhp hybrid supercar is also one of its most economical, using 40 percent less fuel than a ‘regular’ V12. LaFerrari mates an 800 bhp 6.3-litre V12 internal combustion engine with an electric KERS motor – perfected in F1 racing, and producing an additional 150 bhp – to provide extra thrust during acceleration. There is a 7-speed dual-clutch transmission and the car is rear-wheel drive This all catapults the car from 0-62mph in under three seconds, making LaFerrari nearly as fast as a modern Formula 1 car, while also trimming emissions and fuel consumption. Ferrari claims CO2 emissions of 330 g/km. This was a clear star attraction of the day for most people. It was parked up alongside the Veyron, and there were crowds around it pretty much from when it arrived until it departed, which is what typically happens when Ferrari’s member of what are sometimes called the “Holy Trinity” of hypercars appears, even though it is now over three years since Ferrari revealed this hypercar.
Oldest Fiat model here, and parked up under cover, drawing everyone’s attention to it, was this 500C, a post-war evolution of the original 500 Topolino, the car which really put Italy on wheels. The Topolino was one of the smallest cars in the world at the time of its production. Launched in 1937, three versions were produced until 1955, all with only minor mechanical and cosmetic changes. It was equipped with a 569 cc four-cylinder, side-valve, water-cooled engine mounted in front of the front axle, which meant that it was a full-scale car rather than a cyclecar. The radiator was located behind the engine which made possible a lowered aerodynamic nose profile at a time when competitors had a flat, nearly vertical grille. The shape of the car’s front allowed exceptional forward visibility. The rear suspension initially used quarter-elliptic rear springs, but buyers frequently squeezed four or five people into the nominally two-seater car, and in later models the chassis was extended at the rear to allow for more robust semi-elliptic springs. With horsepower of about 13 bhp, its top speed was about 53 mph and it could achieve about 48 mpg. The target price given when the car was planned was 5,000 lire. In the event the price at launch was 9,750 lire, though the decade was one of falling prices in several part of Europe and later in the 1930s the Topolino was sold for about 8,900 lire. Despite being more expensive than first envisioned, the car was competitively priced and nearly 520,000 were sold. Nowadays the car seen here is known as the 500A, and this shares its body with the later 500 Model B, but the later car had more power, a heady 16 hp. It was made between 1948 and 1949. The Model A was offered as a 2-door coupé, 2-door cabriolet and a 2-door van, while the Model B also introduced a 3-door estate under the name 500 B Giardinetta (“estate car”). The Model C was introduced in 1949 with a restyled body and the same engine as Model B, and was offered in 2-door coupé, 2-door cabriolet, 3-door estate and 2-door van versions. In 1952, the Giardinetta was renamed the Belvedere (“A turret or other raised structure offering a pleasant view of the surrounding area”, referring to its sunroof). The Model C was produced until 1955.
As well as the Abarth versions of the Nuova 500, there were also a couple of examples of the regular 500 here. Both were the 500F version. Diante Giacosa’s much loved tiny car which debuted in 1957 as a replacement for the Topolino. Over the next 19 years, the car changed little in overall appearance, but there were a number of updates with more power and equipment added. First of those changes came in 1960 with the 500D, which looks very similar to the Nuova, but with two key differences. One is the engine size: the D features an uprated 499 cc engine producing 17 bhp as standard, an engine which would be used right through until the end of the L in 1973; and the other is the roof: the standard D roof does not fold back as far as the roof on the Nuova, though it was also available as the “Transformable” with the same roof as the Nuova. The D still featured “suicide doors”. The D was produced until 1965 when it was replaced by the 500F, which finally moved the door hinges from back to the front. The 500F ran through to 1975, from 1968 alongside the more luxurious 500L which was added to the range in 1968. The L is easy to tell apart, with its bumper overriders. These cars attracted lots of attention all day – everyone, it seems, has a soft spot for them.
Among my favourite cars of all time are the Fiat Dino Coupe and Spider and I was pleased to see an example of the Coupe here. They 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. The days of the cheap Coupe are over as well now. These were available for £15 – 20,000 only a few years ago, but those days are over, and you will probably be paying twice that, and values are only likely to go one way from here.
The first 124 Spider made its debut at the Turin Show in 1966, and continued in production until the mid 1980s, bearing its designer, Pininfarina’s badges 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.
Far rarer now than the 124 Spider are the regular Saloon and Estate models, even though when new these cars achieved the vast majority of 124 sales,. So it was quite an unexpected treat to come across a 124 Special T here. The 124 made its debut in 1966, as a replacement for the 1300 and 1500 saloons. Utterly conventional in concept, it impressed sufficiently to win the Car of the Year award a few weeks later. The first cars had a 1200cc 59 bhp engine, but Fiat gradually added more power, with the 1400cc 69bhp 124 S and then later in 1968 with the Special T, which had a twin cam engine, something of an unusual feature for a family saloon, and a five speed gearbox. from 1968 until 1972 the Special T had a 1,438 cc engine generating 80 bhp, but this was enlarged to 1,592 cc, and a heady 95bhp for the 1973 and 1974 model years, before the car was replaced by the 131 Mirafiori. It was quite popular when new, but these days, the cars are very rare indeed and are better remembered in the much longer lived Lada guise, so it was quite a surprise to come across this one.
Another rarity is this 127 Series 3. The 127 was a hugely significant car for Fiat, and sold strongly across Europe, including in the UK, though a propensity to rust means that very few have survived. It was introduced in Aril 1971 as the replacement for the Fiat 850, and was initially only available as a two-door saloon. A three-door hatchback, using an identical body profile but with a full-depth rear door and folding rear seat, was launched the following year. This was Fiat’s first supermini-sized hatchback, along with a state-of-the-art transverse-engine/front-wheel-drive layout, with the transmission mounted on the end of the engine, both design ideas had been fully trialled since 1964, by Fiat’s Autobianchi subsidiary with the Autobianchi Primula and 1969 Autobianchi A112 and A111. The 1969 Fiat 128 was the first Fiat badged car to use the same transverse powertrain layout. The 127 used, as the A112, a shrunken version of the 128 platform and the rugged Fiat OHV 100 series 903 cc engine, that had powered the Autobianchi and, with various cylinder capacities, earlier generations of Fiat cars. The 127 also featured a unique transverse leaf spring suspension at the rear. Safety was another area of innovation – the 127 included an articulated steering column and crumple zones for progressive deformation under impact. The car was one of the first of the modern superminis, and won praise for its utilisation of space (80 percent of the floor space was available for passengers and luggage) as well as its road-holding. It was launched a year before the comparable Renault 5, and before the end of the 1970s most mass market European manufacturers were producing similar cars, notable examples being the Ford Fiesta and Volkswagen Polo, while General Motors added a three-door hatchback to the Opel Kadett range, which was reworked for British production and sold as the Vauxhall Chevette. It was also the first car fitted with an all-polypropylene bumper on steel support. The 127 was an instant success, winning the European Car of the Year award for 1972, and quickly became one of the best-selling cars in Europe for several years. It was the third Fiat in six years to receive this accolade. In June 1974, slightly over three years after the model’s introduction, Fiat reported that the one millionth 127 had been completed at the Mirafiori plant in Turin. The (in its time) hugely successful Fiat 600 had taken seven years to reach that same milestone. The Series 1 car changed little during its lifetime. However, in May 1973 saloons became available in both standard and deluxe versions. In 1975 the 127 Special variant was released which featured a restyled front grille and detail changes to the interior. The deluxe version was differentiated by its reclining front seats and opening hinged rear side windows as standard equipment. During the next couple of years the Fiat 850, which had initially been marketed alongside the 127, was withdrawn from most markets. The Series 2 version debuted in May 1977. It featured a restyled front and rear, a new dashboard (although almost identical in layout to that of the Series 1), larger rear side windows (using rear quarter pressings derived from those used on the Brazil market Fiat 147) and the option of the 1049 cc engine – uniquely for the 127 this was the five-bearing OHC “Brazil” 124 series engine from the 147 rather than the Fiat OHC unit from the 128. The tailgate was extended and now reached nearly to the rear bumper, addressing complaints about the high lip over which luggage had to be lifted for loading into the earlier 127 hatchbacks. a sporty version made its debut in the autumn of 1978, and it is these cars you see most often these days. The Series 3 was launched in Italy in January 1982 and soon reached other European markets. It is distinguishable from the Series 2 by a more assertively plastic grille. The addition of a corresponding panel at the rear of the vehicle implied a new ‘house style’ inspired by the recently introduced Ritmo/Strada range. The car received a completely new dashboard design and interior, again following the design language first seen in the Ritmo. The 1301 cc Fiat SOHC engine was also introduced as an option for the Series 3. By this time, though, the 127 was an old design and it was under pressure from a plethora of more modern rivals from just about every major manufacturer. The 127 was replaced as Fiat’s high volume product in this sector by the Fiat Uno in January 1983, though versions manufactured in South America continued in production till 1995: Fiat imported the South American 127 Unificata to Europe, but not the UK, until 1987.
Conceived to replace the 127, Fiat launched the Uno in January 1983, just one day before the equally iconic Peugeot 205. 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. Seen here is an example of the facelifted model which was first shown at the Frankfurt Motor Show in September 1989, an attempt to keep the car competitive with newer designs like the new Ford Fiesta and Citroen AX, and Renault’s forthcoming new Clio. The bodywork at the nose was updated and a different tailgate was fitted, improving the drag coefficient to Cd 0.30, and matching the corporate look of the then new Fiat Tipo. The interior was also revised. The pod switchgear was replaced by stalks and an effort was made to stop the dashboard rattles of the Mark I. At this time, the old 1.1 litre engine was replaced by a new FIRE version, and a new Fiat Tipo-derived 1.4 litre (1,372 cc) engine replaced the Ritmo/Strada-derived 1.3 litre in both naturally aspirated and turbo versions. A 1.4 litre Uno Turbo could reach a claimed 204 km/h (127 mph), while the 1.0 version only managed 140–145 km/h (87–90 mph) depending on which transmission was fitted. The Uno was replaced by the Punto in late 1993, although production for some markets continued for some time after that. There were a couple of the Turbo ie models here.
Representing the next generation of small Fiat was this Punto Cabrio. Launched as a 3 and 5 door hatchback in 1993, with a range of petrol and diesel engines, the car was a huge success, and is widely believed to have “saved” Fiat just as the Uno had done 10 years earlier. Taking note of the increasing popularity of open-topped versions of family-sized cars during the 1980s and 1990s, Fiat decided to offer an open version of their hugely popular Punto. The cabriolet version was built by Bertone rather than at the main Fiat factory. It featured an electric powered fully retracting roof and was one of the cheapest open-top cars in the world at the time. In Europe, it was also made with a manual roof. Available in both ELX and SX trim, initially powered by the 90 hp 1.6 engine, replaced in 1995 by the 86 hp 1.2 litre 16v FIRE unit. Approximately 55,000 cars were built between 1994 and 1999, although the last cars were registered in 2000.
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.
The latest 500 models, following their light facelift were present, courtesy of the dealer display.
This elegant looking small sports car is an Innocenti 950 Spider. At the 1960 Turin Auto Show, BMC’s Italian partner Innocenti showed an attractive little Spider built upon Sprite underpinnings. The car was the first design of Tom Tjaarda’s, drawn for Carrozzeria Ghia. Ghia’s partner firm OSI built the bodyshells, when the car entered production in early 1961. The original Innocenti 950 Spider had the Frogeye’s 948 cc engine with 43 hp, 624 of these were built. Later in 1961 an uprated 46.5 hp was installed. In February 1963 the 1098 cc “S” model was introduced, this also had front disc brakes to cope with the extra power. The 1100 has 58 hp and could also be fitted with a removable hardtop. The Spider wasn’t a mere reshelling, as the entire bulkhead was moved forward to provide longer doors and a more modern look. Unlike the spartan Frogeye, the Spider also had wind-up windows and a permanent windscreen. 4,790 of the 950 Spiders were built, and 2,074 of the 1100 cc Spiders. The Innocenti Spider originally sold well in Italy, with production running at 13 cars per day in 1962, but it had a hard time competing against the cheaper Sprite in export markets. As more modern competitors arrived and as the British-built Sprite was modernised, sales dropped precipitously, with only 63 cars built in 1965. Thus, Innocenti presented the reworked Innocenti Coupé in September 1966, still with the same 1100 engine as seen in late Spiders. The badging on the car simply read “Innocenti C”. The Coupé’s all-new bodywork was wider and longer than the Spider’s, and the wheelbase was extended by 150 mm to 2,180 mm (85.8 in). The floorpan was reworked to allow for the seats to be mounted lower than in a Sprite, making the cabin less cramped. It was competitively priced in the Italian market, slotting nicely between the smaller Fiat 850 Coupé and the bigger Fiat 124 Sport Spider. Only 794 were built when production ended in 1968. Neither car was officially sold in the UK, but a few have found their way here in recent years.
It was nice to see a Grifo here, the best known of the small number of different models produced by ISO in the 1960s and early 70s. The prototype ‘Grifo A3/L’ was revealed at the Turin show in 1963 to overwhelming approval. First production Iso Grifo’s followed and all used reassembled and blueprinted Chevrolet Corvette 5.4 litre engines until a 7.0 litre option was introduced in 1968. The larger engined cars were distinguished by some detail modifications, such as a “subtle” bonnet scoop, necessary to accommodate the taller engine and a black band across the rear roof pillar. 322 Series I Grifos were produced before the design received a facelift in 1972 after which time a further 78 Series II Grifo’s were built. In total 90 Grifos were specified in seven-litre form, with only four being built in right-hand drive. The 7 litre cars had a 454 cubic inch Chevrolet V8 engine, and following a rebuild, this car recorded dynamometer results of 490bhp at 5,500rpm. The engine is mated to a modern Tremec TKO600 five-speed gearbox capable of handling this mighty power house.
There was also a special Lamborghini theme here. 2016 marks the centenary of the birth of the marque’s founder Ferruccio, and it was quite a coup to get his nephew, Fabio, in attendance, as guest of honour. He was invited to perform two “official” tasks during the day. One of these was to make the first cuts of a huge cake which was produced in honour of the centenary of the birth of his grandfather, which was then offered to everyone present (multiple pieces. indeed, in an effort to try to ensure that it was all consumed!), and the second was rather more personal for Ciro Ciampi, General Manager of the Sharnbrook and the instigator of this whole event and indeed all the Sharnbrook events. It was to unveil something rather special – a beautifully restored 2241R Tractor dating from 1961 which will join Ciro’s much loved Gallardo.
Contributing to the Lamborghini celebration was a timeline display of cars, with examples of almost every model type made since the firm started to produce cars, and arranged in chronological order. There was neither a 350GT or 400GT here, the only notable absentee, but these are very rare cars with only a few of them in the UK, so the oldest Lamborghini in the timeline was the Miura, a car some will say was the first true supercar. For sure, this car, 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. The car seen here is a P400S, and is well known, as the “ex Twiggy” car, having been owned by her when new.
The Espada, a 4-seat grand touring coupé, arrived in 1968. The car was designed by Marcello Gandini at Bertone. Gandini drew inspiration and cues from two of his Bertone show cars from 1967, the Lamborghini Marzal and the Jaguar Piraña. The name “Espada” means “sword” in Spanish, referring to the sword that the Torero uses to kill the bull in the Corrida. During its ten years in production the car underwent some changes, and three different series were produced. These were the S1 (1968–1970), the S2 (1970–1972) and the S3 (1972–1978). Each model featured interior redesigns, while only minor details were changed on the exterior. The Espada was launched at the 1968 Geneva Motor Show. The original design of the dashboard was inspired by the Marzal concept car, and featured octagonal housings for the main instruments, topped by an additional binnacle for the secondary gauges. Wheels were Campagnolo alloys on knock-off hubs, of the same design seen on the Miura. The tail lights were the same units mounted on the first series Fiat 124 Sport Coupé. 186 were made up until January 1970. At the 1970 Brussels Motor Show Lamborghini unveiled the Espada S2. Outside the only change was the deletion of the grille covering the vertical glass tail panel. Inside changes were more radical: all-new dashboard, centre console and steering wheel were installed. The instrument binnacle was of a more conventional rectangular shape, with round gauges. A wood-trimmed fascia extended along the entire width of the dashboard. Power output increased to 350 PS (345 bhp) due to a higher 10.7:1 compression ratio; the brakes were upgraded to vented Girling discs. Power steering was offered as an option. 575 Series II Espada were made, making it the most popular and desirable variant. The Espada S3 was launched in 1972. Its 3.9 litre V12 engine produced 325 PS (321 bhp) With the second redesign the dashboard changed to a aluminium-trimmed cockpit that kept all instruments and most controls (including the radio) within easy reach of the driver. Newly designed wheels on five-stud hubs replaces the earlier knock-off wider wheels fiitted with Pirelli Cinturato 215/70WR15 CN12 tyres, making the Espada S3 instantly recognisable; other exterior changes included the square instead of hexagonal mesh grille and tail lights from the Alfa Romeo 2000 replacing the previous Fiat-sourced ones. In 1974 a Borg Warner automatic transmission became available. From 1975 large impact bumpers had to be installed to meet United States safety requirements; some people consider cars produced with them as a separate fourth series, but Lamborghini did not officially change the model designation. In total, 1217 Espadas were made, making it the most successful Lamborghini model until the expansion of Countach production in the mid-1980s.
The Jarama first appeared in 1970, as the replacement for the Islero. The Islero had only been produced for a couple of years, but for 1970, Lamborghini were faced with a redesign to meet new United States safety and emissions regulations. But instead of just redesigning it, Lamborghini made the Jarama, a sort of Mark 2 Islero. Lamborghini made the Jarama with a shorter chassis to meet U.S. standards. The Jarama’s chassis was shortened only by 10.7 inches. The Jarama was now built on a shortened version of the same platform as the Espada. Even though the Jarama was heavier than the Islero, it had the same top speed. Two different models were made, the original GT (1970–1973) model having 350 bhp and the GTS (also known as Jarama S) (1972–1976) with its output upped to 365 bhp. Also, with the GTS there were a few minor body modifications, redesigned interior dashboard, power assisted steering, removable roof panels, and an automatic transmission became available as options. A total of 328 Jaramas were built, 152 of which were the S model, like this one.
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. The first of the Countach models here was a 5000Qv.
The second example of the model was one of the Countach Anniversary cars, produced in 1988 to mark the 25th anniversary of car production. Although mechanically very similar to the 5000QV, the Anniversary sported considerable restyling. Notably, enlargement and extension of the rear ‘air-box’ intake-ducts was among other refinements undertaken (extending them to a more gradual incline further in-keeping with aerodynamic-streamlining), while the secondary pair of debossed ducts, originally situated further behind them, were brought forward and relocated directly on top, encompassing refashioned fins now running longitudinally rather than transversely. Additionally, further reconstruction of an already modified engine-bay cover, from a concept consisting of dual-raised sections and tri-ducting, to one that embodies a centre-raised section incorporating dual-ducting become another feature. Various redevelopments to the rear-end were made; most notably the introduction of a rear bumper extending outwardly from the lower-portion. These styling changes were unpopular with many—particularly features such as the fin strakes within the primary rear-intake-ducts openings, which appeared to mimic the Ferrari Testarossa, though providing crucial improved engine cooling. Nonetheless it was only outsold by the QV model. The Anniversary edition was produced up until 1990 before being superseded by the Lamborghini Diablo.
By the early 1970s, Lamborghini had been toying for some time with the idea of a smaller and cheaper car, powered by a V8 engine, to rival the smaller Ferraris, and the result – badly timed thanks to the 1973 Oil Crisis, was the launch in 1974 of the V8 powered Urraco. A low powered 2 litre version was produced to meet the challenges of Italian tax law, but other markets saw cars with bigger 3 litre engines. In 1976 the car was altered to become the Silhouette, which had a lift out targa top panel, and a number of other styling changes. There were examples of both the Urraco and the Silhouette here.
Something of a departure for Lamborghini was the next model to appear, the LM002, the brand’s first four wheel drive model. Although it was not introduced until 1986, its origins go back nearly a decade before that. Lamborghini built its first military vehicle, a prototype vehicle codenamed the “Cheetah”, in 1977. Lamborghini had designed the vehicle with hopes of selling it to companies in the oil exploration and production industry. The original Cheetah prototype had a rear-mounted Chrysler V8 engine. The only finished prototype was never tested by the US military, only demonstrated to them by its designer, Rodney Pharis. It was later sold to Teledyne Continental Motors by MTI and is apparently still in the US. This led Lamborghini to develop the LM001, which was very similar to the Cheetah, but had an AMC V8 engine. It was finally determined that the engine being mounted in the rear caused too many unfavourable handling characteristics in an offroad vehicle, and the LMA002 was built with an entirely new chassis, moving the engine (now the V12 out of the Lamborghini Countach) to the front. After much testing and altering of the prototype, it was finally given a serial number and became the first LM002. The production model was unveiled at the Brussels Auto Show in 1986. It was dubbed the “Rambo-Lambo”. Civilian models were outfitted with a full luxury package, including full leather trim, tinted power windows, air conditioning, and a premium stereo mounted in a roof console. In order to meet the vehicle’s tire needs, Lamborghini commissioned Pirelli to create the Pirelli Scorpion tires with custom, run-flat tread designs. These were made specifically for the LM and were offered in two different tread designs, one for mixed use and the other for sand use only. These tyres could be run virtually flat without risk and could handle the desert heat, the loading, and the speeds of the LM. The LM002 was fitted with a 290-litre fuel tank. For those requiring even more power, the Lamborghini L804 type 7.2 litre marine V12, more commonly found in Class 1 offshore powerboats, could be specified. In 1988, Lamborghini sent an LM002 to a team of special engineers with the intention of making it capable of participating in the Paris Dakar Rally. They stripped it of anything that added unnecessary weight and gave it an upgraded suspension, engine modifications which brought it to 600 hp, full roll cage, plexiglas windows, and GPS equipment. Funding ran out before it could officially be entered in competition, although it did participate in the Rallye des Pharaons in Egypt and another in Greece, both times driven by Sandro Munari. There are quite a few of these cars in the UK, though it takes an event like this for you to stand any chance of seeing one.
At a time when the company was financed by the Swiss-based Mimran brothers, Lamborghini began development of what was codenamed Project 132 in June 1985 as a replacement for the Countach model. The brief stated that its top speed had to be at least 315 km/h (196 mph). The design of the car was contracted to Marcello Gandini, who had designed its two predecessors. When Chrysler bought the company in 1987, providing money to complete its development, its management was uncomfortable with Gandini’s designs and commissioned its design team in Detroit to execute a third extensive redesign, smoothing out the trademark’s sharp edges and corners of Gandini’s original design, and leaving him famously unimpressed. In fact, Gandini was so disappointed with the “softened” shape that he would later realise his original design in the Cizeta-Moroder V16T. The car became known as the Diablo, carrying on Lamborghini’s tradition of naming its cars after breeds of fighting bulls. The Diablo was named after a ferocious bull raised by the Duke of Veragua in the 19th century, famous for fighting an epic battle with ‘El Chicorro’ in Madrid on July 11, 1869 In the words of Top Gear presenter Jeremy Clarkson, the Diablo was designed “solely to be the biggest head-turner in the world.” The Diablo was presented to the public for sale on January 21, 1990. Its power came from a 5.7 litre 48-valve version of the existing Lamborghini V12 featuring dual overhead cams and computer-controlled multi-point fuel injection, producing a maximum output of 499 PS and 580 N·m (428 lb/ft) of torque. The vehicle could reach 100 km/h in about 4.5 seconds, with a top speed of 202 mph. The Diablo was rear-wheel drive and the engine was mid-mounted to aid its weight balance. The Diablo came better equipped than the Countach; standard features included fully adjustable seats and steering wheel, electric windows, an Alpine stereo system, and power steering from 1993 onwards. Anti-lock brakes were not initially available, although they would eventually be used. A few options were available, including a custom-moulded driver’s seat, remote CD changer and subwoofer, rear spoiler, factory fitted luggage set and an exclusive Breguet clock for the dash. The Diablo VT was introduced in 1993. Although the VT differed from the standard Diablo in a number of ways, by far the most notable change was the addition of all wheel drive, which made use of a viscous centre differential (a modified version of LM002’s 4WD system). This provided the new nomenclature for the car (VT stands for viscous traction). The new drivetrain could direct up to 25% of the torque to the front wheels to aid traction during rear wheel slip, thus significantly improving the handling characteristics of the car. Other improvements debuting on the VT included front air intakes below the driving lamps to improve brake cooling, larger intakes in the rear arches, a more ergonomic interior with a revised dashboard, electronically adjustable dampers, four-piston brake calipers, power steering, and minor engine refinements. Many of these improvements, save the four-wheel drive system, soon transferred to the base Diablo, making the cars visually nearly identical. Further updates would follow before the car gave way to the Murcielago in 2001. The Diablo sold in greater numbers than its predecessor with 2898 examples being made during its 11 year production life. There were a couple here, with a VT and one of the later machines with the faired-in headlights as well as the explosive SV.
In its turn, the Diablo gave way to the Murcielago in 2001. Taking its name from the Spanish for “bat”, this was Lamborghini’s first new design in eleven years and more importantly, the brand’s first new model under the ownership of German parent company Audi, which was manifest in a much higher level of quality and reliability. The Murcielago was styled by Peruvian-born Belgian Luc Donckerwolke, Lamborghini’s head of design from 1998 to 2005. Initially it was only available as a Coupe. The Murciélago was an all-wheel drive, mid-engined supersports car. With an angular design and an exceptionally low slung body, the highest point of the roof is just under 4 feet above the ground. One of the vehicle’s most distinguishing features are its scissor doors. which lends to the extreme image. First-generation Murciélagos, produced between 2001 and 2006, were powered by a Lamborghini V12 that traces its roots back to the company’s beginnings in the 1960s. The rear differential is integrated with the engine itself, with a viscous coupling centre differential providing drive to the front wheels. Power is delivered through a 6-speed manual transmission. The Murciélago suspension uses an independent double-wishbone design, and bodywork features carbon fiber, steel and aluminium parts. The rear spoiler and the active air intakes integrated into the car’s shoulders are electromechanically controlled, deploying automatically only at high speeds in an effort to maximise both aerodynamic and cooling efficiency. The first generation cars were produced between 2001 and 2006, and known simply as Murciélago, sometimes Murciélago VT. Their V12 engines produced just under 580 PS (572 hp), and powered the car to 100 km/h (62 mph) in 3.8 seconds. Subsequent versions incorporated an alphanumeric designation to the name Murciélago, which indicated their engine configuration and output. However, the original cars are never referred to as “LP 580s”. The Murciélago Roadster was introduced in 2004. Primarily designed to be an open top car, it employed a manually attached soft roof as cover from adverse weather, but a warning on the windshield header advised the driver not to exceed 100 mph (160 km/h) with the top in place. The designer used the B-2 stealth bomber, the Wally 118 WallyPower yacht, and architect Santiago Calatrava’s Ciutat de les Arts i les Ciències in Valencia, Spain as his inspiration for the roadster’s revised rear pillars and engine cover. In March 2006, Lamborghini unveiled a new version of its halo car at the Geneva Motor Show: the Murciélago LP 640. The new title incorporated the car’s name, along with an alphanumeric designation which indicated the engine’s orientation (Longitudinale Posteriore), along with the newly updated power output. With displacement now increased to 6.5 litres, the new car made 640 PS ( 631 hp) at 8000 rpm. The Murciélago’s exterior received a minor facelift. Front and rear details were revised, and side air intakes were now asymmetrical with the left side feeding an oil cooler. A new single outlet exhaust system incorporated into the rear diffuser, modified suspension tuning, revised programming and upgraded clutch for the 6-speed “e-Gear” automated sequential transmission with launch control rounded out the performance modifications. Interior seating was also re-shaped to provide greater headroom, and a new stereo system formed part of the updated dashboard. Optional equipment included Carbon fibre-reinforced Silicon Carbide (C/SiC) ceramic composite brakes, chrome paddle shifters and a glass engine cover. At the 2006 Los Angeles Auto Show, Lamborghini announced that the roadster version of the Murciélago would also be updated to LP 640 status. At the 2009 Geneva Motor Show, Lamborghini unveiled the ultimate version of the Murciélago, the LP 670–4 SuperVeloce. The SV moniker had previously appeared on the Diablo SV, and Miura. SV variants are more extreme and track-oriented, and are released at the end of each model’s production run. The SuperVeloce’s V12 produced 670 PS (661 hp) at 8000 rpm and 660 N·m (490 lbf·ft) of torque at 6500 rpm, thanks to revised valve timing and upgraded intake system. The car’s weight was also reduced by 100 kg (220 lb) through extensive use of carbon fibre inside and out. A new lighter exhaust system was also used. As a result of the extensive weight loss, the SV had a power-to-weight ratio of 429 bhp/ton. Also standard were the LP 640’s optional 15-inch carbon-ceramic disc brakes with 6 piston calipers. The original production plan for the SV was limited to 350 cars, , but in fact only 186 LP 670-4s were produced before the factory had to make room for the new Aventador production line. Numbered cars 1–350 do not represent the order in which cars were manufactured. Only 5-6 were made with manual transmission. Production of the Murciélago ended on November 5, 2010, with a total run of 4,099 cars. Its successor, the Aventador, was released at the 2011 Geneva Motor Show.
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. Several different ones were on show here.
The Aventador came in 2012, to take the place of the Murcielago, and it remains every inch a true Lamborghini, with bold looks and an awesome sound track from its 7 litre engine. More recently, the SV model has been added to the range, and there were a surprising number of these on show here. There have only been three previous Lamborghini models labelled SV (for Superveloce), and they have all been very special. This one is, too. It has a significant power upgrade over the regular Aventador, churning out 740bhp from a 6.5-litre naturally aspirated V12 engine that revs to 8500rpm. Lamborghini chose not go go down the forced induction route for the extra power, but rather created a whopping, easier-breathing engine in the middle of the car, with a new exhaust and a raised rev limit over the standard V12. It also makes 509lb ft at 5500rpm. It is mated to a single-clutch automated manual gearbox with an improved shift calibration, and more significantly still, an SV is an impressive 50kg lighter than the regular Aventador. There are new door skins and a couple of lighter carbonfibre panels, clad over the carbonfibre monocoque, but I suspect the real weight saving comes in the stripped-out interior. Lamborghini quotes a dry weight of 1525kg, which you could probably make closer to 1700kg by the time it sits at the kerb. Other changes include a big rear wing that gives serious downforce. Magnetorheological adaptive dampers are standard on the SV, as is dynamic steering – which changes ratio depending on road speed and a host of other factors like how much of a ‘bung’ you give the car on the way into a corner. Whilst the regular Aventador did not receive a totally rapturous reaction from the press on launch, they all seem to have loved this one.
Newest Lamborghini is the Huracan, a replacement for the Gallardo. Now it has been available in the UK for some months, there are now quite a few on our roads, so it was no surprise to find the model here, with the recently released Spider model joining the Coupe.
Lancia models were in particularly short supply, with just a couple of them present. Older of the pair was a Beta Coupe VX. The Coupe was the second model in the Beta range to appear, being premiered in the autumn of 1973. Looking very different to the saloon car on which it was based, this was a stylish 2+2 two-door coupé which would ultimately go on to replace the long running Fulvia Coupe, though the two models ran in parallel until 1976. It was developed in-house by a Lancia team led by Aldo Castagno, with Pietro Castagnero acting as styling consultant. Castagnero having also styled the Beta’s predecessor, the Lancia Fulvia saloon and coupé. Sales started in early 1974, though it was a further year before it would reach the UK. It was launched with 1.6 and 1.8 engines. New 1.6 and 2.0 engines replaced the original units in late 1975 followed by a 1.3 in early 1976. In 1978 automatic transmission and power steering became available. In 1981 the car received a minor facelift and at the same time the 2.0 became available with fuel Bosch electronic fuel injection. In 1983 a 2.0 VX supercharged engine became available with an output of 135 bhp. 111,801 were built, but thanks to the poor quality steel from which they were constructed, survival rates are pretty low.
The other Lancia was a Delta Integrale, the model for which the marque is probably now best known. 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 Lancia 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.
There were not many Maserati models here, either. Oldest of those present was a Merak, a model which 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 syncromesh 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.
A late arrival, and consequently tucked away around the back of the hotel was this BiTurbo 222 Spider, one of a vast number of different models from the BiTurbo range which was first seen when Maserati replaced their entire range in 1981. Introduced initially as a single model, a 2 door coupe with a 2 litre twin-turbo V6 engine, over the next 15 years, it would evolve into a complex range of different models, and three basic bodystyles, as well as the special low-volume Karif and V8 engined Shamal cars. The car was designed by Pierangelo Andreani, Chief of Centro Stile Maserati up to 1981, and was somewhat influenced by the design of the recent Quattroporte III. The BiTurbo marked quite a change of direction for the Modense firm, a consequence of its acquisition by Alejandro de Tomaso in 1976. de Tomaso’s ambitious plans for the marque were to combine the prestige of the Maserati brand with a sports car that would be more affordable than the earlier high-priced models that had traditionally made up the Maserati range. The Biturbo was initially a strong seller and brought Italian prestige to a wide audience, with sales of about 40,000 units, but it quickly became apparent that the quality of the car was way off what the market expected, and the car is not regarded as one of the marque’s better models. Indeed, the Biturbo is number 28 in the BBC book of “Crap Cars” and in 2007 was selected as Time Magazine’s worst car of 1984, although they ranked the Chrysler TC by Maserati as a “greater ignominy”. Between 1987–89 a facelift was phased in, which helped to soften the sharp bodylines. The redesign included a taller and more rounded grille with mesh grille and bonnet, aerodynamic wing mirrors and 15″ disc-shaped alloy wheels, now mounted on 5-lug hubs. Some models received the wraparound bumpers with integral foglights and the deep sills introduced with the 2.24v. In 1991 the entire lineup was restyled for a second time, again by the hand of Marcello Gandini; the design features introduced with the Shamal were spread to the other models. Gandini, the Shamal’s designer, developed an aerodynamic kit that included a unique spoiler at the base of the windscreen hiding the windshield wipers, a rear spoiler, and side skirts. The new two-element headlights used poli-ellypsoidal projectors developed by Magneti-Marelli. Inset in body-colour housings they flanked a redesigned grille, slimmer and integrated in the bonnet; the 1988 bumpers were adopted by all models. The 15″ disc-shaped alloys were replaced by new 16″ seven-spoke wheels, with a hubcap designed to look like a centre-lock nut. The second facelift was referred to as “nuovolook”. The engines underwent change, too. As well as being the first ever production car with a twin-turbocharged engine, it was also the first production car engine with three valves per cylinder. The aluminium 90-degree SOHC V6 engine was roughly based on the 2.0 litre Merak engine, itself based on earlier V8 Formula One Maserati engines, designed by Giulio Alfieri. Because in Italy new cars with engine displacement over 2000 cc were subjected to a 38% value added tax, against 19% on smaller displacement cars, throughout the Biturbo’s production life there were both two-litre models aimed mainly at the domestic market and “export” versions, initially with a 2.5 litre V6. The carburettor 2.5 unit produced 185 hp and 208 lb·ft of torque in North American spec and slightly more elsewhere. Fuel injection was fitted in 1987 raising power to 187 hp. In 1989 the enlarged 2.8 litre engine bumped power to 225 hp and 246 lb·ft of torque for North America and 250 PS for Europe. In 1988, with the coupés being restyled, the Biturbo name was dropped in favour of 222—meaning 2-door, 2-litre engine and 2nd generation. The car carried all the visual clues of Gandini’s first facelift, with a more rounded grille and bonnet, different wing mirrors and rear spoiler. The engine size of the 222 E export model grew from the Biturbo’s 2.5- to 2.8-litres. A mixed velour-leather interior was standard on the domestic models, while export markets got leather upholstery as standard. 1990 saw the arrival of the 2.8 litre 222 SE, heir to the Biturbo ES. It inherited the latter’s limited paint finish availability (red, silver or black) and the dark trim and grille, while modern aprons and side skirts (blacked out as well) came from the 2.24v. After just a year the 222 SE was replaced by the 1991-restyled 222 SR; the SR offered adaptive suspension as an option. Simultaneously the very similar 222 4v. joined the lineup; it was a 222 SR with a 2.8 litre four-valve engine, the first DOHC car in the direct Biturbo E lineage. It used wider, 16″ 7-spoke wheels.
After producing BiTurbo based cars for 17 years, Maserati replaced their entire range with a new model in July 1998. Known internally as the Tipo 338, and christened the Maserati 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. The cars proved popular, though, selling strongly up until 2007 when they were replaced by the next generation of Maserati. 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. There were examples of the 4200GT, the Spyder and the GranSport here.
Still acclaimed as one of the best-looking saloons ever produced is this car, the fifth generation Quattroporte. 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 430 PS (424 hp) and maximum torque of 490 N·m (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 were both a GranCabrio and a Ghibli.
Perhaps the rarest car of the day was this, a Moretti 500 Coupe. Indeed, I’ve not seen one in the UK ever before. Moretti produced their first design in 1957, and in the years following that, a significant number of rebodied Fiats, mostly Coupes, emerged from their styling studios. This one was first seen at the 1960 Turin Show and was then produced in surprising number between 1961 and 1967, with an estimated 25,000 having been built. Although the styling suggests a larger car, this car was based on the 500D, which meant that it had the 499cc 2 cylinder engine, mounted at the back, which gave it a top speed of 115 km/h.
There was also a small display of some of the much-loved 2- wheeled Italian machines, with Vespa and Lambretta much in evidence.
NON ITALIAN CARS
Although the theme of the event was very much Italian, there were plenty of cars from other nationalities, too. A select few of these were parked up in the area around the back of the hotel, and I suspect there were others in the main public car park, though I did not actually venture out to that to have a look. Here’s what I did come across:
Needing little introduction is this DB9 Volante, an elegant open-topped version of the middle model in the current Aston range.
There were three examples of Audi’s much praised R8 supercar, including one of the particularly covetable open-topped Spyder models.
Rather more affordable for most of us would be this S1.
Actually, it is not. Look up the registration plate, as I did, and you will find that it is recorded as a Boler. I’d not heard of that, so I had to do some more research. The story seems to be as follows: George Fearn had a passion for Bugatti motor cars but could not aspire to ownership of the real thing. As a fun vehicle he built for himself a replica, constructed on a box frame chassis and powered by a four-cylinder engine, believed to be a 1,200cc MG unit. The fibreglass body was bought in, as well as cycle wings and the chassis was mounted upon Lancia 14” alloy wheels. The engine drives through a four-speed gearbox and is fuelled by twin SU carburettors. In all respects the Boler ‘looks the part’ with its outside hand-brake, leather-strapped bonnet, aero screen, quick release filler cap and radiator calormeter. Further equipment includes an Austin wood-rimmed three-spoke alloy steering wheel, Lucas headlamps, rev counter and 0-120mph speedometer, klaxon horn and racing rear-view mirror. The car is finished in French racing blue livery with black upholstery and carpets. Although believed to have been constructed in 2000 or later, it is registered with the DVLA Swansea as a 1973 Boler.
This Mark 1 Escort certainly seemed to be attracting plenty of interest, and I had to wait quite a while to get a clear photo of it.
The latest Civic Type R is not going to win prizes for subtlety or elegance, but even so, it has found plenty of fans in the year since it went on sale.
E Type Series 3 Roadster
These three “classic” Minis, colour-matched to remind us all of the car’s starring role in the Italian Job, and thus providing link to this event, were also in situ as promotion for the next car event which will be held at the Sharnbrook. A nice touch.
A couple of 911 models attracted my eye and camera, a G Series Targa from the late 70s and a 996 Cabrio
There was also an example of the much-admired Cayman GT4 here.
The first generation MR2 is definitely a modern “classic” now.
This was a splendid event. Well worth the rather long journey to get there. The setting was great, and there was a nice relaxed atmosphere, as well as an amazing array of fabulous machinery, not a little of which was really rather rare. Kudos to Ciro for conceiving and running this event for 10 years. May it continue for many more!