For the 2024 season, each of the mid-week evening Wheels at Prescott has had a theme, as the organisers have found that this has been a good way in trying to stimulate a bit of extra attendance to events which, whilst popular, still do not attract the sort of numbers that you might expect from this much-loved venue. I was excited when I learned that for the August 2024 meet, the theme would be Italian, as I was sure that this would prove popular, and could perhaps even lure people to the venue who had not been before. These are informal events, and whilst people are asked to buy a ticket, or reserve one if a BOC member, for whom attendance is free, this is more to get an idea of numbers for catering purposes than anything else, so no-one really knows precisely what will show up on the day, and the weather is always a factor in whether people decide to come or not. On this occasion, the sun shone, so I was optimistic of a good turn-out, and I was not disappointed by either the quantity or the variety as this report evidences:

ABARTH

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

 

What is known as the Series 4 version of the familiar 595 reached the markets in the middle of 2016. After rumours had circulated all winter following the launch of the facelifted Fiat 500 last year, Abarth finally unveiled the Series 4 at the end of May 2016. Initially, we were told that the cars would not be available in the UK until September, but that came forward somewhat, with dealers all receiving demo cars in June, and the first customers taking delivery in July.  Three regular production versions of both the closed car and the open-topped C were initially available, all badged 595, and called Custom, Turismo and Competizione, as before, though numerous limited edition models have since appeared and in most case disappeared. The most significant changes with the Series 4 are visual, with a couple of new colours, including the much asked for Modena Yellow and a different red, called Abarth Red, which replaces both the non-metallic Officina and – slightly surprisingly – the tri-coat pearlescent Cordolo Red. as well as styling changes front and rear. The jury is still out on these, with many, me included, remaining to be convinced. At the front, the new air intake does apparently allow around 15 – 20 % more air in and out, which will be welcome, as these cars do generate quite a lot of heat under the bonnet. Competizione models for the UK retain the old style headlights, as they have Xenon lights as standard, whereas the Custom and Turismo cars have reshaped units. At the back, there are new light clusters and a new rear bumper and diffuser. Inside, the most notable change is the replacement of the Blue & Me system with a more modern uConnect Audio set up, which brings a new colour screen to the dash. Mechanically, there is an additional 5 bhp on the Custom (now 145) and Turismo (now 165 bhp) and the option of a Limited Slip Diff for the Competizione, which is likely to prove a popular option. Details of the interior trim have changed, with a filled-in glovebox like the US market cars have always had, and electric windows switches that are like the US ones, as well as a part Alcantara trim to the steering wheel in Competizione cars. These cars have now been on offer for eight years and with Abarth sales on the rise, it was no surprise that they were particularly well represented here.

More recently, Abarth have produced the 695 Rivale, a celebration of Fiat’s partnership with Riva, which has already seen a special Riva version of the 500,. Described as being “the most sophisticated Abarth ever”, it is available either as a hatch or a cabriolet, with both of them featuring a two-tone Riva Sera Blue and Shark Grey paintwork. The Rivale  is adorned with an aquamarine double stripe, satin chrome finish on the door handles and satin chrome moulding on the tailgate, various aesthetic elements inspired by the Riva 56 Rivale yachts and ‘695 Rivale’ logos, joined by Brembo Brakes, Koni suspension, and 17-inch Supersport alloy wheels. Enhancing the nautical theme the new 695 Rivale features either a carbon fibre or mahogany dashboard, black mats with blue inserts, blue leather seats and door panels, carbon fibre kick plates, special steering wheel wrapped in blue and black leather and with a mahogany badge, blue leather instrument panel cover, and mahogany gear lever knob and kick plate. These are joined by the standard Uconnect infotainment with a 7-inch display, which is compatible with Android Auto and Apple CarPlay, and there is also a hand-written numbered plate that can be customised with the mane of the customer’s yacht on request. Powering the 695 Rivale is the same 1.4-litre turbocharged engine that makes 180PS (177hp) and 184lb/ft of torque, that features in the 595 Competizione, allowing it to go from rest to 100km/h (62mph) in 6.7 seconds and up to a top speed of 225km/h (140mph). This is a regular model in the range, but confusingly, there is also the Abarth 695 Rivale 175 Anniversary, created to celebrate 175 years of the Riva brand. Just 350 of these were produced, half of them the hatch and the other half cabriolets. These featured 17-inch alloy wheels with a special pattern, celebratory badge on the outside, hand-crafted details such as the two-tone colour – blue and black hand-stitched leather seats with a celebratory logo stitched onto the headrest, carbon dashboard silk screen printed with special logo, numbered plate. Standard Rivale cars arrived in the UK in April 2018, and quite a few have been sold. They always attract lots of interest when they do appear.

The Punto Evo was launched at the 2010 Geneva Show, with the cars reaching UK buyers in the summer of that year, and it incorporated many of the changes which had been seen a few months earlier on the associated Fiat models, the visual alterations being the most obvious, with the car taking on the nose of the associated Fiat, but adapted to make it distinctively Abarth, new rear lights and new badging. There was more to it than this, though, as under the bonnet, the T-Jet unit was swapped for the 1.4 litre Multi-Air, coupled to a 6 speed gearbox, which meant that the car now had 165 bhp at its disposal. Eventually, Abarth offered an Esseesse kit for these cars, though these are exceedingly rare. For those in the know – which never seemed to be that many people – this was a really capable and desirable car, and the owners love them, lamenting the fact that the model had quite a short production life and has not been replaced. The final Punto model was the SuperSport. Easily identified by the distinctive black bonnet, just 199 of the SuperSport versions were built, of which around 120 are registered on UK roads. These cars had many of the options from the Punto Evo included as standard. Power came from the the 1.4-litre MultiAir turbo engine, tuned to produce 178bhp and 199lb ft of torque, up from 165 of the standard Punto Evo, giving the SuperSport  a 0-62 time of  7.5 seconds and a  top speed of over 132mph. To help put the power down, the SuperSport was fitted with wider 18″ wheels and optional Koni FSD dampers. Standard equipment included the Blue&Me infotainment system with steering wheel controls, automatic climate control and a popular option was the  ‘Abarth Corsa by Sabelt’ sports leather seats. The SuperSport was available in the same colours as the regular Punto Evo, which means white, grey, black and red.

The Abarth 124 Spider was developed in parallel with the Fiat model. It does cost a lot more, and there are those who think you don’t get enough extra for your money, but those who have driven it will tell you otherwise. You certainly get more power. The 1.4 MultiAir turbo unit jumps up from 138bhp to 168bhp, while torque also increases by a modest 10Nm to 250Nm, which gives it a  0-62mph time of  6.8 seconds, which is half a second quicker than the 2.0-litre Mazda MX-5. The top speed is 143mph. It weighs just 1060kg meaning a power-to-weight ratio of 158bhp-per-tonne, and with the new Record Monza exhaust system it sounds great even at idle. The Abarth version gets a stiffer suspension setup than the regular Fiat 124 Spider, with Bilstein dampers and beefed-up anti-roll bars. Bigger Brembo brakes also feature, with aluminium calipers. It can be had with a six-speed manual or six-speed automatic transmission with paddles, and the latter gets a Sport mode for quicker shifts. Many of the UK cars sport the ‘Heritage Look’ pack, which is a no-cost option. It brings a matt black bonnet and bootlid, plus red exterior trim detailing and has proved popular. The £29,565 starting price gets you standard equipment such as cruise control, climate control, Bluetooth, a DAB radio and satnav, plus Alcantara black and red (or pure black) seat trim. The automatic gearbox is a £2,035 extra, while an optional visibility pack brings LED DRLs, auto lights and wipers and rear parking sensors. Sales ceased during 2019, with around 1800 cars having been brought into the UK, so this is always going to be a rare car, and values are already increasing at a rate reflecting its desirability and the difficulty in finding one.

ALFA ROMEO

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

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.

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

It was more than 10 years after the Montreal had ceased production before Alfa offered another high-end and costly Coupe model, and the result, seen for the first time in 1989, could hardly have been more different than its forebear. That car had been praised for its looks, whereas this one, the SZ, and cruelly nicknamed “Il Mostro”, was almost wilfully, well, “different”.  First seen at the 1989 Geneva Show, the car was also first shown simply as a concept, called the ES-30, for Experimental Sports car 3 litre. It was produced by Zagato. Robert Opron of the Fiat design studio was responsible for the initial sketches while Antonio Castellana was largely responsible for the final styling details and interior. Only the ‘Z’ logo of Zagato was kept. The car possessed unusual headlights positioned in a trio on each side – a styling used more subtly on later Alfa Romeos in the 2000s. Mechanically and engine-wise, the car was based on the Alfa 75, production being carried out by Zagato at Terrazzano di Rho near the Alfa factory in Arese. The thermoplastic injection moulded composite body panels were produced by Italian company Carplast and French company Stratime Cappelo Systems. The suspension was taken from the Alfa 75 Group A/IMSA car, and modified by Giorgio Pianta, engineer and team manager of the Lancia and Fiat rally works team. A hydraulic damper system was made by Koni. The SZ was originally equipped with Pirelli P Zero tyres (front 205/55 ZR 16, rear 225/50 ZR 16) and is able to sustain over 1.1 G in cornering, some drivers have measured a cornering force of 1.4 G, which remains an excellent performance figure. Low volume production got underway late in 1989, and over the next three years, 1036 were built, slightly more than planned. With the exception of a black car made for Zagato, all of them were red. Subsequently a convertible version, the RZ (for Roadster Zagato), was produced from 1992 until December 1994. Although almost identical to look at the two cars had completely different body panels save for the front wings and boot. The RZ had a revised bumper and door sills to give better ground clearance and the bonnet no longer featured the aggressive ridges. Three colours were available as standard: black, yellow and red, with black and yellow being the more popular choices. Yellow and red cars got a black leather interior and black cars burgundy. Although the interior layout was almost unchanged from the SZ, the RZ had a painted central console that swept up between the seats to conceal the convertible roof storage area. 350 units were planned but production was halted after 252 units when the Zagato factory producing the cars for Alfa Romeo went in to receivership, a further 32 cars were then completed under the control of the receivers before production finished at 284 units. Of those final three were painted silver with burgundy interior and another pearlescent white.

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.

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

FERRARI

The 330 GT 2 + 2 was first seen at the Brussels Show in January 1964. This was much more than a re-engined 250, however, with a sharper nose and tail, quad headlights, and a wide grille. The wheelbase was 50 mm (2.0 in) longer, but Koni adjustable shock absorbers improved handling. A dual-circuit Dunlop braking system was used with discs all around, though it separated brakes front to back rather than diagonally as on modern systems. When leaving the factory the 330 GT originally fitted Pirelli Cinturato 205VR15 tyres (CN72). The 1965 Series II version featured a five-speed gearbox instead of the overdrive four-speed of the prior year. Other changes included the switch back to a dual-light instead of quad-light front clip, alloy wheels, and the addition of optional air conditioning and power steering. Prior to the introduction of the ‘Series II’ 330 GTs, a series of 125 ‘interim’ cars were produced, with the quad-headlight external configuration of the Series I cars, but with the five-speed transmission and ‘suspended’ foot pedals of the ‘Series II’ cars. 625 Series I (including 125 ‘interim’ cars) and 455 Series II 330 GT 2+2 cars had been built when the car was replaced by the 365 GT 2+2 in 1967. Production of the smaller 330 GTC and GTS models overlapped with the GT 2+2 for more than a year.

Still seen by many as the most beautiful Ferrari ever built was the 246 GT Dino and this time there was just one example 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.

Launched in May 1994 as an evolution of the Ferrari 348, just about everything was changed, and improved for the F355, seen here in Berlinetta and Targa formats.  Design emphasis for the F355 was placed on significantly improved performance, but driveability across a wider range of speeds and in different environments such as low-speed city traffic was also addressed, as the Honda NS-X had proved that you could make a supercar that could be lived with every day. Apart from the displacement increase from 3.4 to 3.5 litres, the major difference between the V8 engine in the 348 and F355 was the introduction of a 5-valve cylinder head. This new head design allowed for better intake permeability and resulted in an engine that was considerably more powerful, producing 375 hp. The longitudinal 90° V8 engine was bored 2mm over the 348’s engine, resulting in the small increase in displacement. The F355 had a Motronic system controlling the electronic fuel injection and ignition systems, with a single spark plug per cylinder, resulting in an unusual 5 valves per cylinder configuration. This was reflected in the name, which did not follow the formula from the previous decades of engine capacity in litres followed by number of cylinders such as the  246 = 2.4 litres and 6 cylinders and the 308 of 3.0 litres and  8 cylinders. For the F355, Ferrari used engine capacity followed by the number of valves per cylinder (355 = 3.5 litres engine capacity and 5 valves per cylinder) to bring the performance advances introduced by a 5 valve per cylinder configuration into the forefront. 5. The frame was a steel monocoque with tubular steel rear sub-frame with front and rear suspensions using independent, unequal-length wishbones, coil springs over gas-filled telescopic shock absorbers with electronic control servos and anti-roll bars. The car allows selection between two damper settings, “Comfort” and “Sport”. Ferrari fitted all road-going F355 models with Pirelli tires, size 225/40ZR 18 in front and 265/40 ZR 18 in the rear. Although the F355 was equipped with power-assisted steering (intended to improve low-speed driveability relative to the outgoing 348), this could optionally be replaced with a manual steering rack setup by special order. Aerodynamic designs for the car included over 1,300 hours of wind tunnel analysis. The car incorporates a Nolder profile on the upper portion of the tail, and a fairing on the underbody that generates downforce when the car is at speed. These changes not only made the car faster but also much better to drive, 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.

The Ferrari 575M Maranello (Type F133) is a two-seat, two-door, grand tourer manufactured by Italian automobile manufacturer Ferrari. Launched in 2002, it is essentially an updated 550 Maranello featuring minor styling changes from Pininfarina. The 575M was replaced by the 599 GTB in the first half of 2006. Updates from the 550 included a redesigned interior as well as a number of mechanical improvements, including bigger brake discs, a larger and more powerful engine, improved weight distribution, refined aerodynamics and fluid-dynamics along with an adaptive suspension set-up (the four independent suspensions are also controlled by the gearbox, to minimize pitch throughout the 200-milliseconds shift time). Two six-speed transmissions were available, a conventional manual gearbox and, for the first time on a Ferrari V12, the “F1” automated manual gearbox built by Graziano Trasmissioni. The 575 model number refers to total engine displacement in centiliters, whilst the ‘M’ is an abbreviation of modificata (“modified”). For 2005, the company released a GTC handling package and a Superamerica version (a limited run of 559 retractable hardtop variants of the coupé), along with raising the power from 515 PS (508 bhp) to 540 PS (533 bhp). A total of 2,056 cars were produced, including 246 with manual transmissions.

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

The Ferrari 296 (Type F171)is a sports car built since 2022 by the Italian company Ferrari. The 296 is a two-seater, offered as a GTB coupé and a GTS folding hard-top convertible. It is a plug-in hybrid with a rear mid-engine, rear-wheel-drive layout and its power train combines a twin-turbocharged 120-degree block-angle V6 with an electric drive fitted in between the engine and gearbox. The 296 can be driven in electric-only mode for short distances, to comply with use in urban zero-emission zones. Unveiled on 24 June 2021, the 296 is Ferrari’s first stock model with 6-cylinders other than the Dino 206 GT, 246 GT and 246 GTS cars produced by Ferrari but sold under the Dino marque. Its power pack puts out a combined 830 PS, giving the 296 a power-to-weight ratio of 560 hp/ton. The 296 GTB was presented as the first “real Ferrari with just six cylinders on it” on 24 June 2021. Previously, such models were both designed and built by Ferrari, but marketed as a new, entry-level Dino brand, below Ferrari’s exclusively V12-model policy, until 1974. The new car went on sale in 2022. The 296 in the model name reprises the original Dino’s naming scheme, indicating the engine’s displacement and the number of cylinders. GTB stands for Gran Turismo Berlinetta. It remains a current model.

FIAT

Follow on to the Uno was the Punto, first appearing in 1993 and proving an immediate hit.  Internally codenamed Project 176, the Punto was announced in September 1993 as a replacement for the ageing Fiat Uno and launched in the end of 1993 or the beginning of 1994, depending on the market. The Fiat Punto was voted European Car of the Year for 1995, defeating rival Volkswagen Polo by only 78 points. The Punto was designed by Giorgetto Giugiaro and was available as a three-door or five door hatchback, a two-door cabriolet and a three-door panel van.  As with the majority of the new Fiat group models, suspension was all independent, composed of MacPherson struts at the front and trailing arms at the rear. Entry level in the Punto range were the 1.1 and 1.2 L petrol engines and the 1.7 diesel engine. The 1.2 engine’s actual capacity is 1242 cc, available in three versions. The first, was fitted in the Punto ELX 75 and produced 75 hp at 6000 rpm while the second, fitted to Punto ELX 85 produced 86 hp at 6000 rpm. The third was a 60 hp engine which eventually replaced the 1.1 54 hp engine. A Sporting model was also available with a 1.6 8v updated 128 SOHC engine, producing 88 hp, later replaced in 1997 by the 1.2 16v FIRE engine used in the 85 ELX, and a power drop to 86 hp. The top of the range model was the 136 PS 1.4 GT, using an evolution of the turbocharged 128 SOHC engine originally found in the Fiat Uno Turbo Mk II – capable of running over 200 km/h (120 mph) and reaching 100 km/h (62 mph) in 7.9 seconds, which came fitted with a five speed manual gearbox. During the years the GT was made in three different “series” with power 136 PS (1993–1995),133 PS (1995–1997) and 130 PS (1997–1999).

The second generation Punto codenamed Project 188, was launched in September 1999 at the Frankfurt Motor Show. The styling was all-new while retaining the original Punto’s distinctive shape and design, while the chassis and interior were completely overhauled, with a new torsion beam rear suspension. The new Punto also became the first Fiat in decades to carry the original round Fiat badge, to celebrate Fiat’s centenary. At the launch event of the hatchback, the Fiat Wish concept car was also presented, which was hardtop convertible version of the Fiat Punto, very similar in styling with the Peugeot 206 CC. The model was conceived by Pininfarina to celebrate the centenary of Fiat. The 1.1 and 1.4 engines were discontinued due to emissions issues and the entry level models had only a 1.2 petrol unit, with either 8 or 16 valves, giving 60 hp and 80 hp respectively, or a 1.9L diesel, with common rail injection and turbocharger or naturally aspired with mechanical injection. Two sporty versions were offered. The 1.2 16 valve Sporting model with a six-speed manual, and the 1.8 HGT which could reach almost 130 mph (210 km/h). The 1.2 16V model also has a Speedgear CVT equipped variant (with a sequential manual shift mode consisting of six gears, seven for the Sporting model). The 1.8 HGT accelerates from 0 to 60 in 8.0 seconds. It was considered a big improvement in handling over the Punto GT. The HGT was also available (in limited numbers) as an “HGT Abarth” which added deeper bumpers, rear spoiler, side skirts, new alloy wheels, and interior trim. The HGT Abarth had no technical improvements over the regular HGT. The second generation Punto has also adopted the Dualdrive electric power steering and came with two operation modes, using an electric motor, rather than a hydraulic pump driven by the engine. This resulted in reduced fuel consumption and less environmental impact. It has a fuel economy of 5.6 l/100 km (50 mpg), urban and 3.9 l/100 km (72 mpg), extra urban for the 1.9 diesel. The 1.8 petrol does 8.8 l/100 km (32 mpg), urban and 5.3 l/100 km (53 mpg), extra urban. At the beginning of 2003, Fiat celebrated the rollout of the 5,000,000th production Punto. During the same year, the second generation facelift brought further revisions to the platform, including extensive changes to the exterior styling and engines, partly due to changes in pedestrian safety regulations. The round Fiat badge, found only on the bonnet of second-generation models, was introduced on the tailgate of the second generation facelift. On 1 June 2005, Fiat produced the 6,000,000th Punto at the Melfi plant. Engine changes included a new 1.4 L 16v engine, alongside the staple 1.2 and 1.2 L 16v variants, and the introduction of two HGT versions, the 1.9 L MultiJet diesel engine and the 1.8 L 16v petrol engine, which could reach almost 130 mph (210 km/h) continued over from the pre-facelift version. There was an introduction also of the 1.3 L common rail diesel MultiJet engine. Despite the launch of the slightly larger Grande Punto at the end of 2005, the second generation Punto remained in production, marketed as the Punto Classic, and has been sold in many emerging markets in addition to the newer versions. It was launched for the first time in Chile in 2007. It ended production in Italy in November 2010.

LAMBORGHINI

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, the Urraco, was first seen at the 1970 Turin Show. It was styled by Marcello Gandini, and engineered by Paolo Stanzani. It was launched with a 2.5 litre V8 engine, engineered to be cheaper to build, with belt-driven camshafts, situated within a steel monocoque structure suspended on McPherson struts. It reached the market before the rival Maserati Merak and Ferrari 308 GT4 Dino, which should have given it a big advantage. But it did not. For a start, it was deemed not powerful enough, so even before the difficulties of the late 1973 Fuel Crisis made things difficult, the car did not sell well at all. The solution was to add more power, and this came when the engine was enlarged to 3 litres, with four chain-driven cams, which took power from 220 bhp to 265 bhp. A roll-hoop across the back of the cabin improved rigidity, and more powerful brakes were fitted. It sold better, though never in the sort of volume that had been anticipated, and the addition of an Italian market tax special P200 did not help much, either. Just 66 of these were built, whereas 520 of the original P250 models found buyers, and 190 of the more powerful P300s added to the total before production ceased in 1979. The story did not quite end there, as in 1976 a heavily revised version, with removable targa roof panels, appeared, called the Silhouette, and both were replaced by the Jalpa in the 1980s, though neither of these sold as well as the Urraco.

The Huracán STO (Super Trofeo Omologato) is a track focused variant of the Huracan. It is completely different from other Huracan variants. The STO has a taller rear wing with a roof snorkel for engine cooling. There is a shark fin aerodynamic device connecting the roof snorkel with the rear wing. The engine cover is reminiscent of the Lamborghini Super Trofeo Evo race cars. The entire hood opens to reveal a small compartment for storing racing equipment, the body is made of 75% carbon fibre, the engine and the power output of the STO is the same as the Huracan Perfomante and the Huracan Evo but it has Rear-wheel drive with Rear Wheel Steering system, it has CCMR Brakes inspired from Formula 1. The STO comes with three new modes: STO for road driving, TROFEO for fast lap times on dry tarmac, and PIOGGIA for wet weather driving. The bucket seats on the interior feature racing harnesses.

LANCIA

Replacing the Aurelia was the Flaminia, which although superficially similar to its illustrious predecessor and materially “better” in just about every respect, never managed to capture buyers’ imaginations in the same way when new, and even now, it has to play second fiddle to the older car. The first model in the range was the Berlina, which was launched at the 1957 Geneva Show. It had a Pininfarina styled body which took much inspiration from the Florida concept car that had been shown in the previous year. Much was new under the skin. Its larger 2.5 litre 100 bhp V6 engine was new in detail, and was designed to allow for further increases in capacity, which would come in time. I was smoother than the Aurelia engines and had more torque, and with better cylinder head design and revised cooling, it was more robust, as well. There was synchromesh on all four gears. Lancia’s famous sliding pillar suspension was banished in favour of unequal length wishbones and coil springs which required less maintenance and were more refined. But the car was heavy, and complex, and exceedingly expensive. Lancia thought that their customers would pay a premium for “the best”, but tastes were changing, and the Berlina was never a strong seller, with fewer than 3000 of them being constructed, most of them being the first series cars. Just 549 of the later second series model with 110 bhp and disc brakes were made between 1961 and 1963, hardly surprising when the car cost more than a Rolls Royce Silver Cloud, as it did in the UK. The later cars had a 2.8 litre engine and 125 bhp, and just 599 of these were made between 1963 and 1968. There was more success with the coachbuilt two door variants which joined the range. The most successful of these, the Pininfarina Coupe, was the first to appear. This was made between 1959 and 1967, during which time 5284 of these mostly steel-bodied cars were constructed. In many ways they were very like the Berlina, just a bit smaller, though there was a floor mounted gear lever, and the cars had more power. The first 3200 of them had a 119 bhp single carb engine with a sport camshaft. Later 3Bs had a triple choke Solex from 1962 and the power went up to 136 bhp. It was only a year after the Pininfarina car’s debut when Touring of Milan announced their Flaminia models. These aluminium bodied cars were sold in three distinct variants between 1960 and 1965. The single carburettor GT was followed by a Convertible in 1960, both of them uprated to 140 bhp triple Weber 3C spec in 1961. The 2.8 litre 3C took over in 1963 and were supplemented by a new 2+2 version called the GTL, with a taller roofline, front-hinged bonnet, longer doors and more substantial seats. It is the rarest of all Flaminia models, with just 300 made. The styling house to offer a car was Zagato, with their Sports and SuperSports. Only 526 were made and there is a complicated production history which probably shows the sort of chaotic thinking that was going on at Lancia and which would lead to is bankruptcy and take over by Fiat in 1969. The first 99 Sports had faired-in headlights and the 119 bhp engine. From 1960 another 100 cars were built with expose lights until the introduction of the Sport 3C with the 140 bhp triple carb. Zagato made 174 of those in 1962 and 1963, still with the exposed lights. The faired-in lights returned in 1964 on the SuperSport, which also had a Kamm tail, and with DCN Webers this one put out 150 bhp. 150 of these were made between 1964 and 1967. Many of the earlier cars were upgraded early in their life, so if you see one now, you cannot be totally sure of is true origin. Production of the car ceased in 1970, with fewer than 13,000 Flaminia of all types having been built. These days, the cost to restore them properly – and it is a huge job – exceeds the value of most of them, by some margin, as Berlina and Coupe models tend not to sell for more than £30k. The Zagato cars are a different matter, and when they come up for sale, routinely go for over £300k. The Touring cars – considered by most to be the prettiest tend to be around £100k for the GT and another 50 – 80k for a convertible – a long way from the value of an Aston Martin DB4 Volante, which cost roughly the same when new.

The Fulvia Coupé was a compact two-door, three-box coupé introduced in 1965. Like the saloon it was designed in-house by Piero Castagnero, using a wheelbase 150 mm (5.9 in) shorter than its sedan counterpart. As the last Fulvia model to be discontinued, the coupe was ultimately replaced in 1977 by a 1.3-litre version of the Beta Coupé. The 1965–67 cars were equipped with a 1,216 cc 818.100 engine—from 1967 enlarged to 1,231 cc—producing 79 hp at 6,000 rpm. The same engines were subsequently used on the Berlina GT. The Coupé HF of 1966–67 was the competition version of the coupé, introduced later in 1965. It carried a tuned version of the 1,216 cc engine producing 87 hp at 6,000 rpm. Bodywork was lightened by removing the bumpers, using an aluminium bonnet, doors and boot lid, Plexiglas side and rear windows, and bare steel wheels without hubcaps. The Rallye 1.3 HF of 1967–69 had a new 1,298 cc engine with 100 hp at 6,400 rpm. The Rallye 1.3 of 1967–68 was an updated coupé with the 818.302 1,298 cc engine with 86 hp at 6,000 rpm. The Rallye 1.3 S of 1968–70 was an updated, more powerful Rallye 1.3 with a new 818.303 1,298 cc engine producing 91 hp at 6,000 rpm. There was also the Rallye 1.6 HF of 1969–70. Known as Fanalone (“big lamps”) because of the characteristic upsized inner pair of headlamps. The evolution of Rallye 1.3 HF, equipped with an all-new 818.540 1,584 cc engine producing 113 hp at 6,500 rpm. Other changes included negative camber front suspension geometry, with light alloy 13 inch 6J wheels; and a close ratio 5-speed gearbox and wheel arch extensions. The easiest way to distinguish this version is by the triangular holes between headlamps and grille. The Rallye 1.6 HF of 1969–70 was a works rally-spec Fanalone, produced in very limited numbers. The most powerful Fulvia with a 1,584 cc engine producing up to 130 hp depending on tune. This was the version used by the works rally team until 1974 when it was superseded in competition by the Stratos HF. 45 mm bore Solex carburettors were used that were later replaced by 45 DCOE Webers. The cam cover had a special blue stripe over the yellow paint job (HF cars had just a yellow paint job). The Series II cars first appeared in 1970. For the Coupé 1.3 S of 1970–73, there was a face-lifted body and new 5 speed gearbox with 1298 cc (818.303) engine producing 89 hp at 6000 rpm. Larger Girling callipers and pads replaced the Dunlop system fitted to 1st series cars. The Coupé 1.3 S Montecarlo of 1972–73 was a special edition based on the 1.3 S, commemorating Lancia’s victory at the 1972 Monte Carlo Rally. The livery resembled the works car, with matte black bonnet and boot lid bearing Monte Carlo rally plate-style stickers. This version used his own bodyshell with flared wheel arches, similar to the 1.6 HF bodyshell. Other accoutrements included 1.6 HF Lusso interior fittings such as bucket seats with headrests, rectangular front fog lamps, no bumpers and black single wing mirror; 4.5J steel wheels of the standard Coupé were fitted. The Coupé 1600 HF of 1970 had the face-lifted all steel body with 1,584 cc engine with Solex C42DDHF carb producing 113 hp at 6,000 rpm. The bodywork was changed from the standard 1.3 Coupé to incorporate flared wheel arches (replacing the extensions used on 1st series HFs). There was a further update creating the Coupé  Series 3. This was introduced in 1974 and was mechanically the same as the earlier Series 2 1.3 S except for the addition of emission control on the Solex carburettors. Other than for “Fulvia 3” badges, it is easily recognized by its matte black grilled and headlight frame. It featured a new design of seats incorporating headrests and new white-faced instrument dials with an updated range of trim colours, materials and options. There was a Coupé 3 Montecarlo between 1974–76 which was as the earlier Montecarlo, but with Coupé 3 accoutrements. And finally there was the Safari between 1974–76. A limited edition based on the standard Coupé 3 with simplified trim and equipment, celebrating Fulvia’s participation in the Safari Rally. It came without bumpers, with matte black exterior trim, seats upholstered in denim cloth and leatherette, exterior badges on the bonnet and on the boot lid and also a special numbered plaque on the dashboard.

A Bertone-designed concept car called the Lancia Stratos Zero was shown to the public in 1970, but shares little but the name and mid-engined layout with the Stratos HF version. A new car called the New Stratos was announced in 2010 which was heavily influenced by the design of the original Stratos, but was based on a Ferrari chassis and engine. Bertone had no previous business with Lancia, who were traditionally linked with Pininfarina, and he wanted to come into conversation with them. Bertone knew that Lancia was looking for a replacement for the ageing Fulvia for use in rally sports and so he designed an eye-catcher to show to Lancia. Bertone used the running gear of the Fulvia Coupé of one of his personal friends and built a running showpiece around it. When Bertone himself appeared at the Lancia factory gates with the Stratos Zero he passed underneath the barrier and got great applause from the Lancia workers. After that a co-operation between Lancia and Bertone was formed to develop a new rally car based on ideas of Bertone’s designer Marcello Gandini who already had designed the Lamborghini Miura and Countach. Lancia presented the Bertone-designed Lancia Stratos HF prototype at the 1971 Turin Motor Show, a year after the announcement of the Stratos Zero concept car. The prototype Stratos HF (Chassis 1240) was fluorescent red in colour and featured a distinctive crescent-shaped-wrap-around windshield providing maximum forward visibility with almost no rear visibility. The prototype had three different engines in its early development life: the Lancia Fulvia engine, the Lancia Beta engine and finally for the 1971 public announcement, the mid-mounted Dino Ferrari V6 producing 190 hp. The use of the Dino V6 was planned right from the beginning of the project, but Enzo Ferrari was reluctant to sign off the use of this engine in a car he saw as a competitor to his own Dino V6. After the production of the Dino car had ended the “Commendatore” (a popular nickname for Enzo Ferrari) agreed on delivering the engines for the Stratos, and Lancia then suddenly received 500 units. The Stratos was a very successful rally car during the 1970s and early 1980s. It started a new era in rallying as it was the first car designed from scratch for this kind of competition. The three leading men behind the entire rallying project were Lancia team manager Cesare Fiorio, British racer/engineer Mike Parkes and factory rally driver Sandro Munari with Bertone’s Designer Marcello Gandini taking a very personal interest in designing and producing the bodywork. Lancia did extensive testing with the Stratos and raced the car in several racing events where Group 5 prototypes were allowed during the 1972 and 1973 seasons. Production of the 500 cars required for homologation in Group 4 commenced in 1973 and the Stratos was homologated for the 1974 World Rally Championship season. The Ferrari Dino V6 engine was phased out in 1974, but 500 engines among the last built were delivered to Lancia. Production ended in 1975 when it was thought that only 492 were made (for the 1976 season, the Group 4 production requirement was reduced to 400 in 24 months. Manufacturer of the car was Bertone in Turin, with final assembly by Lancia at the Chivasso plant. Powered by the Dino 2.4 litreV6 engine that was also fitted to the rallying versions, but in a lower state of tune, it resulted in a power output of 190 hp, giving the road car a 0–100 km/h time of 6.8 seconds, and a top speed of 232 km/h (144 mph). The Stratos weighed between 900 and 950 kilograms, depending on configuration. Power output was around 275 hp for the original 12 valve version and 320 hp for the 24 valve version. Beginning with the 1978 season the 24 valve heads were banned from competition by a change to the FIA rules. Even with this perceived power deficit the Stratos was the car to beat in competition and when it did not suffer an accident or premature transmission failure (of the latter there were many) it had great chances to win. Despite the fact that the Stratos was never intended to be a race car, there were two Group 5 racing cars built with 560 hp, using a single KKK turbocharger. The car won the 1974, 1975 and 1976 championship titles in the hands of Sandro Munari and Björn Waldegård, and might have gone on to win more had not internal politics within the Fiat group placed rallying responsibility on the Fiat 131 Abarths. As well as victories on the 1975, 1976 and 1977 Monte Carlo Rally, all courtesy of Munari, the Stratos won the event with the private Chardonnet Team as late as 1979. Without support from Fiat, and despite new regulations that restricted engine power, the car would remain a serious competitor and proved able to beat works cars in several occasions when entered by an experienced private team with a talented driver. The last victory of the Stratos was in 1981, at the Tour de Corse Automobile, another World Rally Championship event, with a victory by longtime Stratos privateer Bernard Darniche. When the Fiat group favoured the Fiat 131 for rallying Lancia also built two Group 5 turbocharged ‘silhouette’ Stratos for closed-track endurance racing. These cars failed against the Porsche 935s on closed tracks but proved successful in hybrid events. While they failed in the Tour de France Automobile, one of these cars won the 1976 Giro d’Italia Automobilistico, an Italian counterpart of the Tour de France Automobile. One of the cars was destroyed in Zeltweg, when it caught fire due to overheating problems.  The last surviving car would win the Giro d’Italia event again before it was shipped to Japan to compete in the Fuji Speedway based Formula Silhouette series, which was never raced. The car would then be sold and reside in the Matsuda Collection before then being sold to the renowned collector of Stratos’, Christian Hrabalek, a car designer and the founder of Fenomenon Ltd, who has the largest Lancia Stratos Collection in the world, 11 unique Lancia Stratos cars, including the fluorescent red 1971 factory prototype and the 1977 Safari Rally car. His interest in the car led to the development of the Fenomenon Stratos in 2005. The Stratos also gained limited success in 24 Hours of Le Mans, with a car, driven by Christine Dacremont and Lella Lombardi, finishing 20th in 1976

The first offspring of the X1/20 project to actually be revealed to the public wasn’t the definitive Beta Montecarlo, but rather the Abarth 030. Powered by a 280 hp, 3.2 litre V6, sporting conspicuous aerodynamic appendages (including a snorkel over the roof to feed the engine) and the Abarth red-yellow livery, the SE 030 was first intended as a replacement to the 124 Abarth in motorsport. Nevertheless, Fiat for the time being preferred racing the high volume selling 131 for marketing reasons, and only two Abarth 030s were ever made. In 1974 one of the two prototypes took part in the then-popular Giro d’Italia automobilistico, a championship consisting of both road and track races. Driven by Giorgio Pianta and Cristine Becker it scored a remarkable second place, just behind the Lancia Stratos Turbo of the duo Andruet-Biche. The Montecarlo Turbo was a Group 5 racer. It was the first racing car to be fielded by Lancia in eight years when it entered the May 1979 Silverstone Six-Hours race. It won the 1979 World Championship for Makes (under 2-litre division) and overall for 1980 World Championship for Makes and 1981 World Endurance Championship for Makes. Hans Heyer also won the Deutsche Rennsport Meisterschaft in 1980 at the wheel of a Montecarlo. In 1980 Turbo also placed first and second at Giro d’Italia automobilistico, an Italian counterpart of the Tour de France Automobile. Being a silhouette car, the Montecarlo Turbo only shared the centre section of the body with its namesake production car. Front and rear tubular subframes supported the suspension and housed the engine, still mid-mounted with Colotti gearbox. Three engines were used: 440 hp 1,425.9 cc, 490 hp 1,429.4 cc and 490 hp 1,773.0 cc. The Montecarlo was the basis for Lancia’s successful Group B rally car, the Lancia 037. Debuting in 1982, the car won the 1983 WRC Manufacturers’ Championship for Lancia. Similarly to the Montecarlo Turbo, the 037 only retained the centre section from the Montecarlo but little else, and its supercharged engine, while still midship, was mounted longitudinally rather than transversely as it is in the Montecarlo.

Lancia launched the Delta in 1979, as what we would now think of as a “premium hatch”. Offered in 1300 and 1500cc engines, this car, which collected the prestigious “Car of the year” award a few months later, brought Italian style and an expensive feeling interior to a new and lower price point in the market than Lancia had occupied since the early days of the Fulvia some 15 years earlier. The range grew first when a model was offered using the 4 speed AP automatic transmission and then in late 1982, more powerful models started to appear, with first a 1600cc engine, and then one with fuel injection, before the introduction of the HF Turbo. All these cars kept the same appearance and were quite hard to tell apart. These were the volume models of the range, but now they are very definitely the rare ones, as it is the performance versions which have survived and are now much loved classics, even though relatively were sold when they were new, thanks to a combination of the fact that they were quite costly and that they only ever came with left hand drive. 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 was 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.

MASERATI

The Sebring was based on the earlier Maserati 3500 GT, and aimed at the American Gran Turismo market, taking its name from Maserati’s 1957 racing victory at the 12 Hours of Sebring. A single two-seat spyder was built by Vignale in 1963 but did not enter production. The Series I (Tipo AM 101/S) was shown at the Salon International de l’Auto 1962 and again at the Salone dell’automobile di Torino in 1963. Employing all but the Maserati 3500’s coachwork, it could reach 137 mph and 0–60 mph in 8.5 seconds on 185×15 Pirelli Cinturato tyres. A Borg-Warner automatic transmission was available, a first for Italian automobiles. When leaving the factory it originally fitted Pirelli Cinturato 205VR15 tyres (CN72). A total of 348 Series I Sebrings were built between 1962 and 1965. The engine was updated in 1963, gaining 15PS for a total of 235 PS. The 3700 engine first appeared in 1964, although only a handful of Series I cars were thus equipped. In 1965, the modified Series II (Tipo AM 101/10) was introduced. It had lightly redesigned headlamps, modernised bumpers, new front indicators, and new side grilles replacing the lower extraction vents used hitherto. It took minor design cues from the contemporary Quattroporte. At the rear, aside from the squared off bumpers, the taillights were now mounted horizontally rather than vertically and the bootlid opening was narrowed somewhat. The Series II rode on larger 205×15 Pirelli Cinturatos. A run of 247 units were made from 1964 until 1968. Along with the 3500 engine, the 3700 and the even larger 4000 were added. The 4000 GTiS has a 4,012 cc engine producing 255 PS at 5,200 rpm. It remained in production until 1968, when financial constraints forced Maserati to drop its older models from production. No major updates took place over the last three years of production, except for a slight power gain for the 4000, now up to 265 PS. 348 units of Sebring 3.5 and 245 of 3.7 and 4.0 (combined) were made, for a total of 593 units from 1962 to 1969.

After producing BiTurbo based cars for 17 years, Maserati replaced their entire range with a new model in July 1998, the 3200 GT. This very elegant 2+2 grand tourer was styled by Italdesign, whose founder and head Giorgetto Giugiaro had previously designed, among others, the Ghibli, Bora and Merak. The interior design was commissioned to Enrico Fumia. Its name honoured the Maserati 3500 GT, the Trident’s first series production grand tourer. Sold mainly in Europe, the 3200 GT was powered by the twin-turbo, 32-valve, dual overhead cam 3.2-litre V8 engine featured in the Quattroporte Evoluzione, set up to develop 370 PS (365 hp). The car was praised for its styling, with the distinctive array of tail-lights, consisting of LEDs, arranged in the shape of boomerang being particularly worthy of comment. The outer layer of the ‘boomerang’ provided the brake light, with the inner layer providing the directional indicator. The car was also reviewed quite well by the press when they got to drive it in early 1999, though it was clear that they expected more power and excitement. That came after 4,795 cars had been produced, in 2001, with the launch of the 4200 models. Officially called the Coupé and joined by an open-topped  Spyder (Tipo M138 in Maserati speak), these models had larger 4.2 litre engines and had been engineered so the cars could be sold in America, marking the return to that market for Maserati after an 11 year gap. There were some detailed styling changes, most notable of which were the replacement of the boomerang rear lights with conventional rectangular units. Few felt that this was an improvement. 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.

As a former owner of the Ghibli, I was pleased to see an example here. The Ghibli marked Maserati’s comeback in the mid-size luxury car segment after two decades of absence, since the last of the Biturbo family saloons went out of production in 1994; it served as a key model in Maserati’s plan of expanding its lineup to cover all segments in the luxury car market. Assembly of the Ghibli took place alongside that of the Quattroporte VI at the new Giovanni Agnelli Plant in Grugliasco near Turin, Italy. On September 24, 2019, the 100,000th Ghibli rolled off the production line as announced by Maserati. The Ghibli was introduced at the 2013 Shanghai Auto Show and marked Maserati’s entry into the mid-size executive car market as being positioned below the Quattroporte. The Ghibli is the first car to be underpinned by the Maserati M156 platform and was the company’s best seller until the Levante crossover SUV was launched. The company sold 6,000 units of the car in its first year into the market, which alone exceeded the best sales figures for Maserati for 2008, which was 9,000 cars sold in total consisting of different models. The number increased to 22,500 in 2013 and 36,448 in 2014. It continued to increase in 2015 due to the delay in the Levante’s launch. The Ghibli also marks the return of the name in the US market as the Biturbo based Ghibli (AM336) was not available for sale there. The Ghibli, which is based on a shorter wheelbase than the flagship Quattroporte, uses a steel monocoque chassis with additional subframes with the front subframe made of aluminium. Tested weight distribution for the diesel version stands at 51/49 front/rear. The diesel engine in the Ghibli, developed under Ferrari engine specialist Paulo Martinelli, is based on the V6 diesel unit found in the Jeep Grand Cherokee. The engine is exclusive to the European market only. A ZF 8HP transmission powers the rear wheels as used by all the major competition except Mercedes-Benz. Both the Ghibli and the Quattroporte share the same suspension although the Skyhook suspension is optional on the former. An optional Koni adaptive sport suspension is also available. From the 2018 model year, the Ghibli can be optioned with one of two new trims, namely GranSport and GranLusso, all of which relate to the interior of the car with the GranSport trim featuring an aggressive front bumper. A facelifted Maserati Ghibli and new, hybrid version were unveiled online on 16 July 2020. Production was phased out earlier this year.

NON ITALIAN CARS

Of course, not all the cars here were Italian. Far from it, with quite a number of interesting cars from marque’s whose countries of origin lie elsewhere in the world. Among them were these:

ALPINA

There were three different Alpina models based on the E28, the B7S Turbo and the B9 and B10 Saloons. The B9 came first, launching in November 1981, a few months after the debut of the standard E28, featuring a 3.5 litre inline 6 cylinder engine. When this unit was updated in 1985, the model designation changed to B10. 577 of these cars were made. In standard form, the BMW 3.5 litre engine delivered 218 bhp, but after the special Alpina treatment, this was upped to 245 bhp. Other changes included new springs, gas-filled dampers, uprated discs and 16″ Alpina wheels on the outside, and a leather steering wheel, Alpina upholstery and Recaro seats on the inside. The second generation B7 Turbo arrived in April 1984 and just like the E12 based  B7S Turbo cars which had been built between November 1981 and May 1982, this was the fastest 4 door saloon in the world, and this latest one took performance to new levels. Using the BMW 3.5 litre engine again, as it now had a higher compression than before, boost was not quite as great as it had been, at 0.7 bar, but that and the other detailed changes Alpina made were enough to give the new B7 Turbo an output of 300 bhp and 320 bhp in the catalyst equipped models, along with 509 Nm of torque, resulting in a top speed of 265 – 270 km/h, and a 0- 100 km/h time of either 4.8 or 6.1 seconds depending on which test source you believe. The gearbox was a Getrag 5 speed manual unit that had been developed for the 745i. Uprated Bilstein suspension was fitted, with height adjustable rear dampers and the car had what for the time were huge wheels, 205/55 16″ at the front and 225/55 at the rear.  Inside the car was much like the B7 Turbo but with a black roof lining. Alpina made 236 non cat and 42 catalyst cars before “production” ended in the summer of 1987.

AUSTIN HEALEY

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

BMW

When renowned motoring writer Denis Jenkinson reflected on 50 years of the BMW 328 in 1986, he wrote that this acclaimed model ‘set a standard in modern sports cars that was not surpassed until the 1950s and not outmoded until 10 years later.’ That was high praise from a man who was not easily impressed, and it was entirely deserved. The 328 embodied BMW’s ‘leichtbau’ ethos of gaining performance by reducing weight, and at its heart was a six-cylinder engine that could trace its heritage to the Rudolf Schleicher-designed 1173cc unit that had been produced for the 303 model. It was enlarged to 1490cc for the 315, then 1911cc for the 319. By 1936, it had been stretched once again to 1971cc for the new 326 – and it was this variant that provided the basis for the 328. For this latest sports car, Schleicher designed a new cylinder head with inclined overhead valves and ‘cross pushrods’. Power was boosted to 80bhp at 4500rpm in standard form, and could be increased to more than 100bhp for competition use. Fittingly, the 328 made its debut at the 1936 Eifelrennen race meeting at the Nürburgring. Ernst Henne won the 2-litre class and set a new sports-car lap record, beginning an illustrious motorsport career for the 328 that also included class victories at the Tourist Trophy and Le Mans. In 1940, Huschke von Hanstein and Walter Bäumer took a special 328 coupé to outright victory in the 1940 Gran Premio di Brescia, which, in effect, was that year’s Mille Miglia. The 328 won plaudits from all who drove it. In 1937, former ‘Bentley boy’ Sammy Davis took one to Brooklands and lapped the banked circuit at an average speed of 102mph for more than an hour. Motor Sport, meanwhile, called it ‘the fastest and, simultaneously, the most comfortable sports car that has ever been built’. The 328’s six-cylinder engine went on to enjoy a second life following World War Two, when the Car Division of the Bristol Aeroplane Company acquired the design for use in its new models. It was effective not just in road cars, but was also tuned for a variety of motorsport applications during the 1950s – proof of its enduring quality. The lightweight, six-cylinder BMW 328 proved to be a formidable force in international motor racing during the late 1930s, and has since become a highly coveted choice of pre-war sports car

EQUILBRIUM

This is an Equilibrium Sonic 7. This iconic, lightweight, twin-seat sports car is now owned and produced by Equilibrium Kit Cars, having originally been designed by Stuart Mills of Mills Extreme Vehicles in 2008. It continues to boast a bespoke, low-mass, tubular space-frame chassis, double-wishbone suspension and mountings to accept the readily available Ford Focus powertrain. The kit’s original styling was based upon the MEV Rocket’s curves, but with the addition of more practical weather protection from an enclosed glass fibre cockpit.  The unmistakable SONIC shape has now been reworked with fresh eyes and an increasingly inventive and technical perspective. The kit has been fully CAD modelled from the ground up, with the addition of a number of enhancements to give a beneficial update using modern manufacturing and design techniques. The car is Ford Focus Mk.1 based, as standard, but other engine options are available. The Sonic 7 has a total built weight of approximately 600kg (depending on specification) which gives it a 0-60 mph times of less than 5 seconds. It is mid-engined, with rear-wheel drive and has approximately a 40/60 front/rear weight distribution. Power-to-weight ratios over 300 bhp/ton are possible.

JAGUAR

The Series 1 E Type was introduced, initially for export only, in March 1961. The domestic market launch came four months later in July 1961. The cars at this time used the triple SU carburetted 3.8-litre six-cylinder Jaguar XK6 engine from the XK150S. Earlier built cars utilised external bonnet latches which required a tool to open and had a flat floor design. These cars are rare and more valuable. After that, the floors were dished to provide more leg room and the twin bonnet latches moved to inside the car. The 3.8-litre engine was increased to 4,235 cc in October 1964. The 4.2-litre engine produced the same power as the 3.8-litre (265 bhp) and same top speed (150 mph), but increased torque approximately 10% from 240 to 283 lb/ft. Acceleration remained pretty much the same and 0 to 60 mph times were around 6.4 seconds for both engines, but maximum power was now reached at 5,400 rpm instead of 5,500 rpm on the 3.8-litre. That all meant better throttle response for drivers that did not want to shift down gears. The 4.2-litre’s block was completely redesigned, made longer to accommodate 5 mm (0.20 in) larger bores, and the crankshaft modified to use newer bearings. Other engine upgrades included a new alternator/generator and an electric cooling fan for the radiator. Autocar road tested a UK spec E-Type 4.2 fixed head coupé in May 1965. The maximum speed was 153 mph, the 0–60 mph time was 7.6 seconds and the 1⁄4 mile from a standing start took 15.1 seconds. They summarised it as “In its 4.2 guise the E-Type is a fast car (the fastest we have ever tested) and offers just about the easiest way to travel quickly by road.”. Motor magazine road tested a UK spec E-Type 4.2 fixed head coupé in Oct 1964. The maximum speed was 150 mph, the 0–60 mph time was 7 seconds and the 1⁄4 mile time was 14.9 seconds. They summarised it as “The new 4.2 supersedes the early 3.8 as the fastest car Motor has tested. The absurd ease which 100 mph can be exceeded in a 1⁄4 mile never failed to astonish. 3,000 miles (4,828 km) of testing confirms that this is still one of the world’s outstanding cars”. All E-Types featured independent coil spring rear suspension designed and developed by R J Knight with torsion bar front ends, and four wheel disc brakes, in-board at the rear, all were power-assisted. The Coventry engineers spared nothing with regards to high automotive technology in braking. Like several British car builders of the middle and late 1950s, the four-wheel disc brakes were also used in that era by Austin-Healey, MG,putting the British far ahead of Ferrari, Maserati, Alfa Romeo, Porsche, and Mercedes-Benz. Even Lanchester tried an abortive attempt to use copper disc brakes in 1902. Jaguar was one of the first vehicle manufacturers to equip production cars with 4 wheel disc brakes as standard from the XK150 in 1958. The Series 1 (except for late 1967 models) can be recognised by glass-covered headlights (up to 1967), small “mouth” opening at the front, signal lights and tail-lights above bumpers and exhaust tips under the number plate in the rear. 3.8-litre cars have leather-upholstered bucket seats, an aluminium-trimmed centre instrument panel and console (changed to vinyl and leather in 1963), and a Moss four-speed gearbox that lacks synchromesh for first gear (“Moss box”) on all except very last cars. 4.2-litre cars have more comfortable seats, improved brakes and electrical systems, and, obviously, an all-synchromesh Jaguar designed four-speed gearbox. 4.2-litre cars also have a badge on the boot proclaiming “Jaguar 4.2 Litre E-Type” (3.8 cars have a simple “Jaguar” badge). Optional extras included chrome spoked wheels and a detachable hard top for the OTS. When leaving the factory the car was originally fitted with Dunlop 6.40 × 15-inch RS5 tyres on 15 × 5K wire wheels (with the rear fitting 15 × 5K½ wheels supplied with 6.50 X15 Dunlop Racing R5 tyres in mind of competition). Later Series One cars were fitted with Dunlop 185 – 15 SP41 or 185 VR 15 Pirelli Cinturato as radial ply tyres. A 2+2 version of the fastback coupé was added in 1966. The 2+2 offered the option of an automatic transmission. The body is 9 in (229 mm) longer and the roof angles are different. The roadster and the non 2+2 FHC (Fixed Head Coupé) remained as two-seaters. Less widely known, right at the end of Series 1 production, but prior to the transitional “Series 1½” referred to below, a small number of Series 1 cars were produced with open headlights. These Series 1 cars had their headlights modified by removing the covers and altering the scoops they sit in, but these Series 1 headlights differ in several respects from those later used in the Series 1½ (or 1.5), the main being they are shorter at 143 mm from the Series 1½ at 160 mm. Production dates on these machines vary but in right-hand drive form production has been verified as late as July 1968. They are not “rare” in the sense of the build of the twelve lightweights, but they are certainly uncommon; they were not produced until January 1967 and given the foregoing information that they were produced as late as July 1968, it appears that there must have been an overlap with the Series 1.5 production, which began in August 1967 as model year 1968 models. These calendar year/model year Series 1 E-Types are identical to other 4.2-litre Series 1 examples in every respect except for the open headlights; all other component areas, including the exterior, the interior, and the engine compartment are the same, with the same three SU carburettors, polished aluminium cam covers, center dash toggle switches, etc. Following the Series 1 there was a transitional series of cars built in 1967–68 as model year 1968 cars, unofficially called “Series 1½.” Due to American pressure the new features were not just open headlights, but also different switches (black rocker switches as opposed to the Series 1 toggle switches), de-tuning for emissions (using two Zenith-Stromberg carburettors instead of the original three SUs) for US models, ribbed cam covers painted black except for the top brushed aluminium ribbing, bonnet frames on the OTS that have two bows, and other changes. Series 1½ cars also have twin cooling fans and adjustable seat backs. The biggest change between 1961–1967 Series 1 E-Types and the 1968 Series 1.5 was the reduction in the number of carburettors from 3 to just 2 (North America), resulting in a loss in horsepower. Series 2 features were gradually introduced into the Series 1, creating the unofficial Series 1½ cars, but always with the Series 1 body style. A United States federal safety law affecting 1968 model year cars sold in the US was the reason for the lack of headlight covers and change in dash switch design in the “Series 1.5” of 1968. An often overlooked change, one that is often “modified back” to the older style, is the wheel knock-off “nut.” US safety law for 1968 models also forbade the winged-spinner knockoff, and any 1968 model year sold in the US (or earlier German delivery cars) should have a hexagonal knockoff nut, to be hammered on and off with the assistance of a special “socket” included with the car from the factory. This hexagonal nut carried on into the later Series 2 and 3. The engine configuration of the US Series 1.5s was the same as is found in the Series 2. An open 3.8-litre car, actually the first such production car to be completed, was tested by the British magazine Motor in 1961 and had a top speed of 149.1 mph and could accelerate from 0 to 60 mph in 7.1 seconds. A fuel consumption of 21.3 mpg was recorded. The test car cost £2,097 including taxes.The cars submitted for road test by the motoring journals of the time (1961) such as Motor, Autocar and Autosport magazines were prepared by the Jaguar works. This work entailed engine balancing and subtle tuning work such as gas-flowing checking the cylinder heads but otherwise production built engines. Both of the well-known 1961 road test cars: the E-Type coupé Reg. No. 9600 HP and E-Type Convertible Reg. No. 77 RW, were fitted with Dunlop Racing Tyres on test, which had a larger rolling diameter and lower drag coefficient. This goes some way to explaining the 150 mph (240 km/h) maximum speeds that were obtained under ideal test conditions. The maximum safe rev limit for standard 6-cylinder 3.8-litre E-Type engines is 5,500 rpm. The later 4.2-Litre units had a red marking on the rev counter from just 5,000 rpm. Both 3.8 test cars may have approached 6,000 rpm in top gear when on road test, depending on final drive ratio. Production numbers were as follows:  15,490 of the 3.8s, 17,320 of the 4.2s and 10,930 of the 2+2s. And by body style there were 15,442 of the FHC, 17,378 of the OTS and 5,500 of the 2+2, making a total of 38,419 of the Series 1 car.

JENSEN

An enduring classic that has far more appeal now than when it was new (not an uncommon story) is the Jensen Interceptor,  launched as a replacement for the rather gawky looking CV8 of the early 1960s. After a false start when a car with the same name was shown in 1965, which received a massive “thumbs down”, Jensen went to Italy to find a new stylist for another attempt. They ended up with Carozzeria Touring, who produced a stunning looking grand tourer which, although sharing some styling cues with other models that they had designed, had a style all of its own, and they then approached another,  Vignale,  to build the bodies before they would be shipped back to West Bromwich for final assembly. As with the CV8, motive power came from a large Chrysler V8 engine, which gave the car effortless performance, and a somewhat prodigious thirst. The original specification included electric windows, reclining front seats, a wood rimmed steering wheel, radio with twin speakers, reversing lights and an electric clock. Power steering was included as standard from September 1968. The Mark II was announced in October 1969, with slightly revised styling around the headlamps, front grille and bumper and revised rear lights. The interior was substantially revised in order to meet US regulations, and air conditioning was an option. The Mark III, introduced in 1971, revised the front grille, headlamp finishers and bumper treatment again. It had GKN alloy wheels and air conditioning as standard, and revised seats. It was divided into G-, H-, and J-series depending on the production year. The 6.3 litre engine was superseded by the 7.2 litre in 1971. A Convertible version was premiered in 1974,. but just 267 were built, and then in 1975 a Coupe model was shown, effectively a fixed roof version of the Convertible, just 60 of which were made as by this time, the company had fallen on hard times due to the then world-wide recession, and massive and costly reliability problems with its Jensen-Healey sports car. It was placed into receivership and the receivers allowed production to be wrapped up using the available cache of parts. Production of the Interceptor ended in 1976. Enthusiasm for the car remained, though, so in the late 1980s, a group of investors stepped in and re-launched production of the Interceptor, as the Series 4, back as a low-volume hand built and bespoke affair, marketed in a similar way to Bristol, with a price (£70,000 and more) to match. Though the body remained essentially the same as the last of the main production run of series 3; the engine was a much smaller Chrysler supplied 5.9 litre unit which used more modern controls to reduce emissions comparatively and still produce about 230 hp. In addition, the interior was slightly re-designed with the addition of modern “sports” front seats as opposed to the armchair style of the earlier models, as well as a revised dashboard and electronics. The then owner sold up in 1990 to an engineering company believed to be in a stronger position to manufacture the car which lasted until 1993 with approximately 36 cars built, and while work commenced on development of a Series 5 Interceptor, once again receivers were called in and the company was liquidated. Even that was not quite the end of the story, as the Jensen specialist based at Cropredy Bridge has made a business out of rebuilding original Interceptors using modern components, with a General Motors supplied 6.2 litre LS3 engine and transmission from a Chevrolet Corvette. In May 2010, Jensen International Automotive was set up, with the financial backing and know-how of Carphone Warehouse founder and chairman Charles Dunstone who joined its board of directors. A small number of Jensen Interceptor Ss, which had started production under a previous company, are being completed by Jensen International Automotive (JIA), in parallel with JIA’s own production of the new Jensen Interceptor R; deliveries of the latter started at the beginning of 2011.

MORGAN

MORRIS

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

PORSCHE

The Porsche 718 is a series of one- or two-seat sports-racing cars built by Porsche from 1957 to 1962 was a development of the successful Porsche 550A with improvements made to the body work and suspension. The car’s full name is 718 RSK, where “RS” stands for RennSport (sports-racing) and the “K” reflects the shape of the car’s revised torsion-bar suspension. It had a mid-engined layout and used the 142 bhp 1.5-litre Type 547/3 quad-cam engine introduced in the 550A. The car seen here is a rather wonderful replica

Also here was the 914, a model born of a joint need that Porsche had for a replacement for the 912, and Volkswagen’s desire for a new range-topping sports coupe to replace the Karmann Ghia. At the time, the majority of Volkswagen’s developmental work was handled by Porsche, part of a setup that dated back to Porsche’s founding; Volkswagen needed to contract out one last project to Porsche to fulfill the contract, and decided to make this that project. Ferdinand Piëch, who was in charge of research and development at Porsche, was put in charge of the 914 project. Originally intending to sell the vehicle with a flat four-cylinder engine as a Volkswagen and with a flat six-cylinder engine as a Porsche, Porsche decided during development that having Volkswagen and Porsche models sharing the same body would be risky for business in the American market, and convinced Volkswagen to allow them to sell both versions as Porsches in North America. On March 1, 1968, the first 914 prototype was presented. However, development became complicated after the death of Volkswagen’s chairman, Heinz Nordhoff, on April 12, 1968. His successor, Kurt Lotz, was not connected with the Porsche dynasty and the verbal agreement between Volkswagen and Porsche fell apart. In Lotz’s opinion, Volkswagen had all rights to the model, and no incentive to share it with Porsche if they would not share in tooling expenses. With this decision, the price and marketing concept for the 914 had failed before series production had begun. As a result, the price of the chassis went up considerably, and the 914/6 ended up costing only a bit less than the 911T, Porsche’s next lowest price car. The 914/6 sold quite poorly while the much less expensive 914/4 became Porsche’s top seller during its model run, outselling the Porsche 911 by a wide margin with over 118,000 units sold worldwide. Volkswagen versions originally featured an 80 PS fuel-injected 1.7 L flat-4 engine based on the Volkswagen air-cooled engine. Porsche’s 914/6 variant featured a carburettor 110 PS 2.0 litre flat-6 engine from the 1969 911T, placed amidships in front of a version of the 1969 911’s “901” gearbox configured for a mid-engine car. Karmann manufactured the rolling chassis at their plant, completing Volkswagen production in-house or delivering versions to Porsche for their final assembly. 914/6 models used lower gear ratios and high brake gearing in order to try to overcome the greater weight of the 6 cylinder engine along with higher power output. Suspension, brakes, and handling were otherwise the same. A Volkswagen-Porsche joint venture, Volkswagen of America, handled export to the U.S., where both versions were badged and sold as Porsches, except in California, where they were sold in Volkswagen dealerships. The four-cylinder cars were sold as Volkswagen-Porsches at European Volkswagen dealerships. Slow sales and rising costs prompted Porsche to discontinue the 914/6 variant in 1972 after producing 3,351 of them; its place in the lineup was filled by a variant powered by a new 100 PS 2.0 litre, fuel-injected version of Volkswagen’s Type 4 engine in 1973. For 1974, the 1.7 L engine was replaced by a 85 PS 1.8 litre, and the new Bosch L-Jetronic fuel injection system was added to American units to help with emissions control. 914 production ended in 1976. The 2.0 litre flat-4 engine continued to be used in the 912E, which provided an entry-level model until the 924 was introduced.

Replacing the 964, the 993 models were first seen in October 1993, with production starting a few weeks later. Its arrival marked the end of air-cooled 911 models. The 993 was much improved over, and quite different from its predecessor. According to Porsche, every part of the car was designed from the ground up, including the engine and only 20% of its parts were carried over from the previous generation. Porsche refers to the 993 as “a significant advance, not just from a technical, but also a visual perspective.” Porsche’s engineers devised a new light-alloy subframe with coil and wishbone suspension (an all new multi-link system), putting behind the previous lift-off oversteer and making significant progress with the engine and handling, creating a more civilised car overall providing an improved driving experience. The 993 was also the first 911 to receive a six speed transmission. The 993 had several variants, as its predecessors, varying in body style, engines, drivetrains and included equipment. Power was increased by the addition of the VarioRam system, which added additional power, particularly in the mid-ranges, and also resulted in more throttle noise at higher revs; as a consequence, resulted in a 15% increase in power over its predecessor. The external design of the Porsche 993, penned by English designer Tony Hatter, retained the basic body shell architecture of the 964 and other earlier 911 models, but with revised exterior panels, with much more flared wheel arches, a smoother front and rear bumper design, an enlarged retractable rear wing and teardrop mirrors. A major change was the implementation of all alloy multi-link rear suspension attached to an alloy sub frame, a completely new design derived from the 989, a four-door sedan which never went into production. The system later continued in the 993’s successor, the 996, and required the widening of the rear wheel arches, which gave better stability. The new suspension improved handling, making it more direct, more stable, and helping to reduce the tendency to oversteer if the throttle was lifted during hard cornering, a trait of earlier 911s. It also reduced interior noise and improved ride quality. The 993 was the first generation of the 911 to have a 6-speed manual transmission included as standard; its predecessors had 4 or 5-speed transmissions. In virtually every situation, it was possible to keep the engine at its best torque range above 4,500 rpm. The Carrera, Carrera S, Cabriolet and Targa models (rear wheel drive) were available with a “Tiptronic” 4-speed automatic transmission, first introduced in the 964. From the 1995 model year, Porsche offered the Tiptronic S with additional steering wheel mounted controls and refined software for smoother, quicker shifts. Since the 993’s introduction, the Tiptronic is capable of recognising climbs and descents. The Tiptronic equipped cars suffer as compared to the manual transmission equipped cars in both acceleration and also top speed, but the differences are not much notable. Tiptronic cars also suffered a 55 lb (25 kg) increase in weight. The 993’s optional all wheel drive system was refined over that of the 964. Porsche departed from the 964’s setup consisting of three differentials and revised the system based on the layout from its 959 flagship, replacing the centre differential with a viscous coupling unit. In conjunction with the 993’s redesigned suspension, this system improved handling characteristics in inclement weather and still retained the stability offered by all wheel drive without having to suffer as many compromises as the previous all-wheel-drive system. Its simpler layout also reduced weight, though the four wheel drive Carrera 4 weighs 111 lb (50 kg) more than its rear wheel drive counterpart (at 3,131 lb (1,420 kg) vs. 3,020 lb (1,370 kg)). Other improvements over the 964 include a new dual-flow exhaust system, larger brakes with drilled discs, and a revised power steering. A full range of models arrived before the arrival of the 996 generation in 1998.

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

ROVER

It is hard to imagine now just how excited people were when this dramatically different looking Rover burst onto the scene in July 1976. These days it takes a very extreme supercar for most car enthusiasts to get truly animated, but back then, a 3.5 litre V8 engined 5 seater British hatchback was all it took, and it was no surprise that the model collected the “Car of the Year” award later in 1976, fending off the second placed Ford Fiesta and the new Audi 100. Replacing both the Rover P6 and the big Triumphs which had been launched at the 1963 Motor Show and updated only in detail since then, this new David Bache styled car, with more than a hint of Ferrari Daytona in its profile really was something very different indeed to look at, even if underneath it was more of a clever update of proven mechanicals, with the 3.5 litre V8 engine carried over from its predecessor. Early press reports suggested that the car was as good to drive as it was to behold, and quickly there were long waiting lists as Rover struggled to produce the car fast enough in an all-new manufacturing facility in Solihull. Sadly, it did not take too long before it became apparent that although the car had been a long time in gestation, there were a number of design and manufacturing quality issues, quite apart form the extra ones that were inflicted by a still very truculent and strike-prone workforce. These frustrations did little to quell demand, though, which increased when the promised 6 cylinder models arrived in the autumn of 1977. 2300 and 2600 models sported a new 6 cylinder engine and were the more obvious replacement for the big Triumph and the Rover 2200 than the V8 car had been. BL’s next move was to take the car up market with the launch of the V8S in 1979 which was available in a rather bright Triton Green metalllic paint and a choice of gold or silver alloy wheels, as well having a far higher standard level of equipment. It was replaced by the even more luxurious Vanden Plas model in late 1980. More significant was a facelift which came in early 1982. A revised rear window line was aimed at improving the rather limited rear visibility and finally a rear wiper was fitted, this having been excluded from the earlier cars as it had been deemed unnecessary by a BL management who still thought that they knew better than the customers who clamoured for one) and the bumpers and lights were altered, along with significant interior trim and equipment changes. A few weeks later, a cheaper 4 cylinder 2000 model appeared, with the O Series engine under the bonnet, aimed at the all important fleet market and later that year it was joined by a diesel version, using the VM Motor engine, creating the 90 bhp 2400SD. The real joy though was the car revealed at the 1982 British Motor Show, the Vitesse, which boasted fuel injection and 190 bhp to give the car better performance, and with a new front and rear spoiler, the looks to suggest that this was an Autobahn-stormer to rival BMW and Mercedes. Of course, the other reason for the Vitesse was so as to homologate some of the changes for what turned out to be a less than successful career on the race track. It was this which led to the final handful of Vitesse models having a further power upgrade with the TwinPlenum versions, and these are the most highly prized cars of the lot these days. That said, values of SD1 remain very low, with the result that the majority of the cars have been scrapped as they are economic to restore. You see more Vitesse models than anything else so it was nice to see here that there are other models still around. There were a couple of Touring Car versions here as well as the road cars.

TOYOTA

This is from the fifth generation of the Celica, which was introduced in September 1989. The Celica received new Super Round organic styling, upgraded wheels and tyres, more powerful GT-Four (All-Trac Turbo in the US) with better cooling system, and for the Japanese market only, the four-wheel steering (4WS) models. Toyota engineers claimed that the round styling and lack of straight edges increased strength without adding weight. The styling was later copied by other manufacturers. Japanese market models were now S-R, Z-R, GT-R, Active Sports (first Toyota with Toyota Active Control Suspension), and GT-Four. The S-R and Z-R were powered by a 3S-FE engine, while the GT-R and Active Sports came with a 3S-GE. The 3S-GTE in the GT-Four features an air-to-air intercooler and CT26 twin entry turbo to eliminate exhaust gas interference. The Japanese market GT-Four has (221 bhp and 304 Nm (224 lb/ft) of torque, a result of more aggressive ignition advance and ceramic turbine. The Full-time 4WD system in the GT-Four has viscous coupling limited slip centre differential and Torsen rear differential. Trim levels for the European Celica were 1.6 ST-i, 2.0 GT-i 16, and GT-Four. The 2.0 GT-i 16 cabriolet was offered only in certain European countries. Only the 2.0 GT-i 16 liftback and GT-Four were officially sold in the UK.  The model was superceded by a sixth generation car in 1993.

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

TRIUMPH

Oldest of the duo of TR sports cars here was one of the first models, the TR2, a model produced between 1953 and 1955, during which time 8,636  cars were produced. Standard’s Triumph Roadster was out-dated and under-powered. Company boss Sir John Black tried to acquire the Morgan Motor Company but failed. He still wanted an affordable sports car, so a prototype two-seater was built on a shortened version of the Standard Eight’s chassis and powered by the Standard Vanguard’s 2-litre straight-4. The resulting Triumph 20TS prototype was revealed at the 1952 London Motor Show. Black asked BRM development engineer and test driver Ken Richardson to assess the 20TS. After he declared it to be a “death trap” a project was undertaken to improve on the design; a year later the TR2 was revealed. It had better looks; a simple ladder-type chassis; a longer body; and a bigger boot. It was loved by American buyers, and became the best earner for Triumph. In 1955 the TR3 came out with more power; a re-designed grille; and a GT package that included a factory hard-top. The car used a twin H4 type SU carburettor version of the 1991 cc four-cylinder Standard wet liner inline-four engine from the Vanguard, tuned to increase its output to 90 bhp. The body was mounted on a substantial separate chassis with coil-sprung independent suspension at the front and a leaf spring live axle at the rear. Either wire or disc wheels could be supplied. The standard transmission was a four-speed manual unit, with overdrive available on top gear as an option. Lockheed drum brakes were fitted all round. The car was replaced by the similar looking TR3 in 1955.

By the mid 1960s, money was tight, so when it came to replacing the TR4 and TR5 models, Triumph were forced into trying to minimise the costs of the redesign, which meant that they kept the central section of the old car, but came up with new bodywork with the front and back ends were squared off, reportedly based on a consultancy contract involving Karmann. The resulting design, which did look modern when it was unveiled in January 1969 has what is referred to as a Kamm tail, which was very common during 1970s era of cars and a feature on most Triumphs of the era. All TR6 models featured inline six-cylinder engines. For the US market the engine was carburetted, as had been the case for the US-only TR250 engine. Like the TR5, the TR6 was fuel-injected for other world markets including the United Kingdom, hence the TR6PI (petrol-injection) designation. The Lucas mechanical fuel injection system helped the home-market TR6 produce 150 bhp at model introduction. Later, the non-US TR6 variant was detuned to 125 bhp for it to be easier to drive, while the US variant continued to be carburetted with a mere 104 hp. Sadly, the Lucas injection system proved somewhat troublesome, somewhat denting the appeal of the car. The TR6 featured a four-speed manual transmission. An optional overdrive unit was a desirable feature because it gave drivers close gearing for aggressive driving with an electrically switched overdrive which could operate on second, third, and fourth gears on early models and third and fourth on later models because of constant gearbox failures in second at high revs. Both provided “long legs” for open motorways. TR6 also featured semi-trailing arm independent rear suspension, rack and pinion steering, 15-inch wheels and tyres, pile carpet on floors and trunk/boot, bucket seats, and a full complement of instrumentation. Braking was accomplished by disc brakes at the front and drum brakes at the rear. A factory steel hardtop was optional, requiring two people to fit it. TR6 construction was fundamentally old-fashioned: the body was bolted onto a frame instead of the two being integrated into a unibody structure; the TR6 dashboard was wooden (plywood with veneer). Other factory options included a rear anti-roll bar and a limited-slip differential. Some say that the car is one of Leyland’s best achievements, but a number of issues were present and remain because of poor design. As well as the fuel injection problems, other issues include a low level radiator top-up bottle and a poor hand-brake. As is the case with other cars of the era, the TR6 can suffer from rust issues, although surviving examples tend to be well-cared for. The TR6 can be prone to overheating. Many owners fit an aftermarket electric radiator fan to supplement or replace the original engine-driven fan. Also the Leyland factory option of an oil cooler existed. Despite the reliability woes, the car proved popular, selling in greater quantity than any previous TR, with 94,619 of them produced before production ended in mid 1976. Of these, 86,249 were exported and only 8,370 were sold in the UK. A significant number have since been re-imported, as there are nearly 3000 of these much loved classics on the road and a further 1300 on SORN, helped by the fact that parts and services to support ownership of a TR6 are readily available and a number of classic car owners’ clubs cater for the model.

TVR

The Chimaera was originally intended to replace the Griffith but sufficient demand for both of the models led TVR continuing them. In 1994, TVR introduced the Chimaera 500, a high performance derivative of the Chimaera. The BorgWarner T5 manual transmission replaced the Rover LT77 unit on the rest of the range. A new alternator, power steering and a single Vee belt were fitted to improve reliability. The 4.3 litre engine option was replaced by the 4.0 litre High Compression option. The Chimaera was mildly updated in 1996. Updates included a rear bumper shared with the Cerbera, push button doors with the buttons located under the wing mirrors, a boot lid shared with the Cerbera and the replacement of the front mesh grille with a horizontal bar. The GKN differential was also replaced by a BTR unit. A 4.5 litre model was added to the lineup in 1997. It was originally intended to be fitted with the AJP8 V8 engine but due to the engine not being ready on time, a bored version of the Rover V8 was used instead. In 1998, the rear light styling and the number plate mounting angle was updated while the base 4.0 litre model was discontinued. In 2001, the Chimaera was again facelifted and now featured the Griffith’s headlights as well as seats from the Cerbera. The Chimaera was succeeded by the Tamora in 2002

VOLKSWAGEN

In 1989, the Rallye Golf appeared as a rallye “homologation special” for Group A rallying. Distinguishable by its box-flared wheel arches and rectangular projector headlamps, this model featured Syncro four-wheel drive, a cable shifted transmission and a G-supercharger 1763 cc, marginally less than the standard 1781 cc to enable the car to enter in the sub 3-litre class for Group A rallying. Five thousand cars were built in Volkswagen’s Brussels, Belgium, plant, priced at about DM 50,000 each (or roughly twice as much as a base Golf GTI). The Rallye Golf has 160 PS (158 hp). The Homologation was completed on 1 December 1989. None were officially sold in the US. Two were sent over officially for testing, with five sent over for evaluation. Volkswagen of America vice-president James Fuller was a supporter of its addition to the U.S./Canadian lineup. Fuller died in December 1988 while flying home from Germany aboard Pan Am Flight 103, when a bomb planted by Libyan terrorists exploded over Lockerbie, Scotland; this had a detrimental effect on the Rallye Golf’s chances of importation to North America. Eventually, Volkswagen of America decided that the Rallye Golf would be too expensive to offer for sale in North America, where Volkswagen was perceived as a low-cost brand. VW Motorsport entered the WRC from 1990-1991 with limited success, the best position being a 3rd place on the 1990 Rally New Zealand and a 5th place on the 1990 Tour De Course Rally. Limited budget compared to the larger teams meant development time was small. VW Motorsport pulled out of the WRC at the end of the 1990 season however they did enter the 1991 German Rally Championship (Deutsche Rallye Meisterschaft), which then they won both the drivers’ and manufacturers’ titles.

VOLVO

This is a nice example of the Volvo P1800, a sports car that was manufactured by Volvo Cars between 1961 and 1973. The car was a one-time venture by the usually sober Swedish Volvo, who already had a reputation for building sensible sedans. The project was originally started in 1957 because Volvo wanted a sports car to compete in the US and European markets, despite the fact that their previous attempt, the P1900, had failed to take off with only 68 cars sold. The man behind the project was an engineering consultant to Volvo, Helmer Petterson, who in the 1940s was responsible for the Volvo PV444. The design work was done by Helmer’s son Pelle Petterson, who worked at Pietro Frua at that time. Volvo insisted it was an Italian design by Frua and only officially recognised that it was by Pelle Petterson many years later. The Italian Carrozzeria Pietro Frua design firm (then a recently acquired subsidiary of Ghia) built the first three prototypes between September 1957 and early 1958, later designated by Volvo in September 1958: P958-X1, P958-X2 and P958-X3. In December 1957 Helmer Petterson drove X1, the first hand-built P1800 prototype to Osnabrück, West Germany, headquarters of Karmann. Petterson hoped that Karmann would be able to take on the tooling and building of the P1800. Karmann’s engineers had already been preparing working drawings from the wooden styling buck at Frua. Petterson and Volvo chief engineer Thor Berthelius met there, tested the car and discussed the construction with Karmann. They were ready to build it and this meant that the first cars could hit the market as early as December 1958. But in February, Karmann’s most important customer, Volkswagen forbade Karmann to take on the job, as they feared that the P1800 would compete with the sales of their own cars, and threatened to cancel all their contracts with Karmann if they took on this car. This setback almost caused the project to be abandoned. Other German firms, NSU, Drautz and Hanomag, were contacted but none was chosen because Volvo did not believe they met Volvo’s manufacturing quality-control standards. It began to appear that Volvo might never produce the P1800. This motivated Helmer Petterson to obtain financial backing from two financial firms with the intention of buying the components directly from Volvo and marketing the car himself. At this point Volvo had made no mention of the P1800 and the factory would not comment. Then a press release surfaced with a photo of the car, putting Volvo in a position where they had to acknowledge its existence. These events influenced the company to renew its efforts: the car was presented to the public for the first time at the Brussels Motor Show in January 1960 and Volvo turned to Jensen Motors, whose production lines were under-utilised, and they agreed a contract for 10,000 cars. The Linwood, Scotland, body plant of manufacturer Pressed Steel was in turn sub-contracted by Jensen to create the unibody shells, which were then taken by rail to be assembled at Jensen in West Bromwich. In September 1960, the first production P1800 left Jensen for an eager public. The engine was the B18, an 1800cc petrol engine, with dual SU carburettors, producing 100 hp. This variant (named B18B) had a higher compression ratio than the slightly less powerful twin-carb B18D used in the contemporary Amazon 122S, as well as a different camshaft. The ‘new’ B18 was actually developed from the existing B36 V8 engine used in Volvo trucks at the time. This cut production costs, as well as furnishing the P1800 with a strong engine boasting five main crankshaft bearings. The B18 was matched with the new and more robust M40 manual gearbox through 1963. From 1963 to 1972 the M41 gearbox with electrically actuated overdrive was a popular option. Two overdrive types were used, the D-Type through 1969, and the J-type through 1973. The J-type had a slightly shorter ratio of 0.797:1 as opposed to 0.756:1 for the D-type. The overdrive effectively gave the 1800 series a fifth gear, for improved fuel efficiency and decreased drivetrain wear. Cars without overdrive had a numerically lower-ratio differential, which had the interesting effect of giving them a somewhat higher top speed of just under 120 mph, than the more popular overdrive models. This was because the non-overdrive cars could reach the engine’s redline in top gear, while the overdrive-equipped cars could not, giving them a top speed of roughly 110 mph. As time progressed, Jensen had problems with quality control, so the contract was ended early after 6,000 cars had been built. In 1963 production was moved to Volvo’s Lundby Plant in Gothenburg and the car’s name was changed to 1800S (S standing for Sverige, or in English : Sweden). The engine was improved with an additional 8 hp. In 1966 the four-cylinder engine was updated to 115 PS, which meant the top speed increased to 109 mph. In 1969 the B18 engine was replaced with the 2-litre B20B variant of the B20 giving 118 bhp, though it kept the designation 1800S. For 1970 numerous changes came with the fuel-injected 1800E, which had the B20E engine with Bosch D-Jetronic fuel injection and a revised camshaft, and produced 130 bhp without sacrificing fuel economy. Top speed was around 118 mph and acceleration from 0–62 took 9.5 seconds. In addition, the 1970 model was the first 1800 with four-wheel disc brakes; till then the 1800 series had front discs and rear drums. Volvo introduced its final P1800 variant, the 1800ES, in 1972 as a two-door station wagon with a frameless, all-glass tailgate. The final design was chosen after two prototypes had been built by Sergio Coggiola and Pietro Frua. Frua’s prototype, Raketen (“the Rocket”), is located in the Volvo Museum. Both Italian prototypes were considered too futuristic, and instead in-house designer Jan Wilsgaard’s proposal was accepted. The ES engine was downgraded to 125 bhp by reducing the compression ratio with a thicker head gasket (engine variant B20F); although maximum power was slightly down the engine was less “peaky” and the car’s on-the-road performance was actually improved. The ES’s rear backrest folded down to create a long flat loading area. As an alternative to the usual four-speed plus overdrive manual transmission, a Borg-Warner three-speed automatic was available in the 1800ES. With stricter American safety and emissions standards looming for 1974, Volvo did not see fit to spend the considerable amount that would be necessary to redesign the small-volume 1800 ES. Only 8,077 examples of the ES were built in its two model years.

I really enjoyed this evening. The weather was agreeable, there was a good variety of cars, some interesting people to talk to and there was the usual tasty food available in the Club House. There is one more Wheels at Prescott in the 2024 calendar, and in recognition of the reducing among ot evening daylight, it moves to a weekend slot. I hope to attend.