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Sunday, November 7, 2010

Mustang has put Ford in a giddy mood

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The spectacular success of the 2005 Mustang has put Ford in a giddy mood. The suits invited Carroll Shelby to Dearborn for consultation. The result is the Ford Shelby Cobra GT500 on these pages, a faithful preview of a 450-plus-hp 2007 production model you’ll be able to purchase in the fall of ’06 for less than $40,000.

If you crave Corvette speed but need a back seat, you might consider switching allegiance to the blue oval. Before he cleaned out his desk early this year, John Coletti and his loyal SVT coconspirators conjured up the makings of a Stingray spoiler: the revitalized Mustang muscled up with fatter rubber, bigger brakes, aero accessories, and a totally irresponsible load of horsepower. Shelby spent five hours riding Coletti’s mule before filing this succinct assessment: “Wow!”
With eighty-two years under his hat, Shel has seen and done it all. When he says “Wow!” it’s not because his bursitis is flaring up.

The Shelby tie-in is perfect, because this is another ride back to the glory days of Ford’s Total Performance period. Ford’s 1962-70 juggernaut left burned-rubber traces all over the drag, road-course, off-road, rally, stock-car, Indy-car, and Formula 1 racing worlds. In June 1962, Ford said “Screw you!” (in so many words) to the Automobile Manufacturers Association’s ban on factory motorsports participation. Agents were dispatched to buy Ferrari; when that initiative failed, Ford signed a blank check to beat the Scuderia at Le Mans with the GT40 and its derivatives.


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Shelby was equally low on Enzo Ferrari’s Christmas-card list in the early 1960s. After being rebuked by GM, Shelby in 1961 asked Ford to supply engines for his Cobra sports cars. Four years later, he returned the favor by removing the back seats from Ford Mustangs to convince the Sports Car Club of America that the cars deserved eligibility in the club’s B Production ranks. Three dozen R-model Shelby GT350s built with Ford’s blessing gave amateur racers the ammunition necessary to break Corvette’s lock on the B Production championship. The Ford-Shelby courtship also yielded an interesting run of steroidal Mustangs for street use. The second car in that series was the 1967 Shelby-Mustang GT500 fastback, powered by a 7.0-liter big-block V-8 that inhaled through two Holley four-barrel carburetors to produce 355 (gross) hp.

Forty years later, it’s dj vu all over again. Ford and Shelby are still doing deals. The new Mustang is striped and spoilered as a salute to its illustrious forefathers. This time, the cast-iron block under the hood is gorged with double overhead cams, thirty-two valves, and an Eaton supercharger. And that old live axle is back for another dance.
Dolled up for this spring’s New York auto show, the nuevo GT500 follows ’60s-era recipes to the letter. It’s the classic big engine stuffed into a barely modified standard car. Suspension alterations are mainly tuning tweaks. The only sheetmetal change is an aluminum hood bulked up like a football captain on prom night. According to Hau Thai-Tang, Ford’s new director of advanced product creation and SVT programs, this project is the first tangible evidence of SVT’s revised game plan. Instead of well-meaning but ultimately half-finished attempts to reinvent the high-performance automobile, SVT hereafter will focus on more circumspect alterations of mainstream products delivered with a significantly higher level of execution.


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Even though SVT’s leash is tighter, the new GT500 is a credible step beyond the last Mustang Cobra (2003-04). That 390-hp snake had a 4.6-liter four-cam V-8 at the core, whereas the new Shelby edition moves to the 5.4-liter block that powers the Ford GT and various large trucks. Mixing and matching parts, the GT500′s powerplant gets the Eaton Lysholm screw-type supercharger, air-to-water intercooler, and four-valve DOHC heads from the Ford GT mated to the iron block found in the workaday trucks. As the result of a stroke that’s 17 percent larger than the bore, this engine will be a growler, not a screamer; the redline on the show car’s tach is stuck at the standard Mustang’s 6000 rpm.

While the engineers are still tuning, expectations are that the 500 badge won’t be that boastful. Today’s spec sheet lists “450-plus” hp with 450 lb-ft of torque and 8.5 psi of boost (versus the 550-hp Ford GT’s 12.0 psi). Don’t be surprised if market conditions nudge the final figure upward. Backing up the blown motor is a wide-ratio Tremec T-56 transmission with six forward gears-two of which are overdrive ratios. (Standard and GT Mustangs currently get by with five-speed manual transmissions.)

Exterior alterations are more than two-tone frosting on the GT500′s fortieth birthday cake. Chief designer Doug Gaffka re-beveled the grille opening, lowered the driving lights, and sent the horsey badge galloping. New twin apertures, filled with black diamond mesh and a side snake, mouth the appropriate “Outta the way, sucker!” visual statement. Two slots in the hood exhaust some of the air rammed through the intercooler, radiator, and A/C condenser heat exchangers. A discreet black splitter at the lower edge of the front fascia helps cancel high-speed lift. The black-skirt theme continues down the sides of the car and across the tail in a simulated diffuser panel. While the side and rear trim are nonfunctional, the requisite trunk-lid spoiler does cancel some of the aerodynamic lift at the rear. All four views of the exterior show a hissing snake, and the Shelby name is writ conspicuously across the trailing edge of the trunk lid in racetrack typeface. SVT identification is relegated to the wheel-center caps.


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Patterned after the Ford GT’s forged-aluminum wheels, the cast rims that adorn the GT500 concept are a meaty 9.5 inches wide. Goodyear Eagle F1 rubber in a 255/40YR-19 size plants a tread approximately 0.4 inch wider than the standard Mustang’s seventeen-inch four-season radials. Expect eighteens on the ’07, with nineteens optional. Neither will be enough; count on billowing white smoke trailing the GT500′s every move.
When that cloud clears, there’s a nice view of the upgraded braking equipment through the machined wheel spokes. Black-painted Brembo calipers-with four pistons in front, two in back-hug cross-drilled and radially vented brake rotors. The gain in rotor diameter is a substantial 1.6 inches in front (to 14 inches) and 1.5 inches in back (to 13 inches). Suspension changes, which currently are under development, likely will be limited to recalibrated springs and dampers, though preliminary specifications also list a stiffer rear antiroll bar. While we’re skeptical about this much power delivered via a live rear axle, a race-prepped 2005 Mustang did win its Grand-Am Cup class at Daytona in February. Electronic traction control will continue (with a disabling switch), but there are no plans to add stability assistance.

The show car’s interior theme can be summed up in one word: leather. The standard Mustang’s molded-plastic surfaces are swathed by an uninterrupted layer of stitched black hide. It trims the door panels, steering wheel, shifter, parking-brake handle, dash top, and console. The seat center panels are red perforated leather in the classic tuck-and-roll motif. A matte-aluminum finish for the shift knob, steering-wheel spokes, instrument rings, and vent registers replaces the standard Mustang’s blindingly bright metal decor. Metal trim plates running across the middle of the dash are subdued with a black-dot pattern, while the gauge faces-which Ford calls titanium-look pitch black to us. The 7000-rpm tachometer was moved from the left to the right tube to enhance its visibility.

Predicting how much of this hide and horsepower will make the leap to production is a fool’s game right now. However, this much we can say: With the weight gain held to 200 pounds and the power curve clearing the 470-hp hurdle, the GT500 could arrive with a Corvette-trumping power-to-weight ratio. Carroll Shelby wouldn’t have it any other way.

Geneva Auto Show - World Debut For The Production Version of the Spyker C8 Aileron

PHOTO (select to view enlarged photo)

GENEVA, Switzerland, 3 March, 2009 - Spyker Cars, manufacturer of exclusive premium sports cars since 2000, today proudly introduces the production version of its all-new second-generation sports car: the Spyker C8 Aileron, the prototype of which was shown at Geneva in 2008.

Victor R. Muller, Spyker Cars' founder and Chief Executive Officer said on the occasion of the unveiling: "When we unveiled the C8 Aileron prototype here last year, we wanted to make a clear statement to the industry that Spyker was about to take the next step in its short but intense history, by introducing its second-generation sports cars, developed from scratch. Within a year we transformed that prototype into the production-ready car we show here today. The first cars are being built now with customer production and deliveries starting in May 2009.

The C8 Aileron's design is heavily inspired by Spyker's aviation heritage, as was the case with all previous models, but with a clear emphasis on the second-generation aircraft propulsion: the turbine rather than the propeller that adorned so many elements of the first-generation cars. Similarly the "Aileron" name pays tribute to that aviation heritage. It is the device that makes an aircraft turn and symbolizes the turning point that the Aileron is for Spyker: the car which will turn the company towards long-awaited profitability."

SPYKER C8 AILERON: A COMPLETELY NEW CAR

All-Aluminium Space frame Chassis
The Spyker C8 Aileron’s all-aluminium space frame was completely redesigned from scratch with the objective to increase torsional rigidity and to incorporate an all-new suspension system. These characteristics provide an ideal foundation for enhanced vehicle dynamics. Moreover, the C8 Aileron’s dimensions have been optimised for more interior space and to accommodate the optional automatic gearbox. Compared to the short wheelbase of the firstgeneration cars - the Spyker C8 Laviolette and C8 Spyder - the wheelbase of the C8 Aileron is 150 mm longer, also providing for more driving comfort and stability at high speeds. Its front track has increased by 155 mm. The total dimensions of the front and rear track are now 1625 mm and 1645 mm respectively, which improves road handling significantly.

Spyker has put tremendous efforts in the space frame performance of the C8 Aileron, specifically the structure’s efficiency. The utilisation of modern finite element and numerical optimization methods has allowed Spyker’s engineers to arrive at an exceptionally stiff structure of 22.000Nm/degree. Rigidnode and load-path technology has been employed in order to ensure that the minimum amount of aluminium is used to achieve this performance, thus reducing the overall weight of the vehicle. The dynamic stiffness characteristics of the structure have been carefully tuned in order to minimize unwanted cabin noises and vibrations, which may otherwise detract from the driving experience. These technologies and measures have allowed Spyker to arrive at the most efficient chassis in its history.

Design
The design of the hand-crafted Spyker C8 Aileron represents the latest evolution of Spyker’s signature architecture, which is prominently inspired by the company’s aviation heritage. In the first-generation cars, the propeller design was consistently applied to many elements of the cars. Within the design of the new Spyker C8 Aileron, the emphasis was shifted from the propeller propulsion to the turbine propulsion. As a result, for instance, the bright polished air inlets were converted into turbine-engineshaped air scoops.
In order to enhance the aerodynamic performance of the car, several changes in styling were made, such as stretching the canopy backwards. Most of the shark-like gills have been abandoned, which results in a cleaner, smoother appearance. The front end is now characterised by a larger grille that gives additional cooling. Also the rear diffuser was redesigned for improved functionality. An extra spoiler has been placed under the diffuser, providing additional downforce to boost the ground effect produced by the diffuser.
Sometimes practicality gains over design: the split side windows with the characteristic metal frame have been replaced by single-pane side windows that are fully retractable, improving driving comfort. The outside mirrors, standard in body colour, were redesigned and the mirror body is mounted on two turbine fan blades.
The rear lights are made of LEDs (light-emitting diodes). LED lights were also used for the indicators and the sidelights in the redesigned headlight units. The style of the headlights is particularly eyecatching as they follow the body design more closely. This characteristic styling can be defined as a part of the (future) Spyker identity first seen on the Spyker C12 Laturbie and subsequently in the Spyker D8 Peking-to-Paris. In fact, the latter will use the identical headlight units to those of the Aileron.

The C8 Aileron is available in 16 standard colours, but customers may choose any colour they wish as an option, as well as the Spyker Squadron GT2 colour scheme. The standard colours have been developed by Sikkens Autolakken Nederland and AkzoNobel Car Refinishes. Spyker selected these companies because of their high quality standards and their flexibility to meet with special requirements. Some of the standard colours have been created especially for the C8 Aileron.

Power train
The Spyker C8 Aileron will use the Audi 4.2 litre V8 engine, giving 400 bhp and will be available with two transmission alternatives. The first one is a 6-speed Getrag manual gearbox, with ratios perfectly matched to the V8 engine. This is joined by a ZF 6-speed automatic gearbox, which comes standard with paddle shifts behind the steering wheel, to progress smoothly through the ratios. Both transmissions retain Spyker’s trademark exposed gear change mechanism.

Interior
Thanks to the longer chassis, the Spyker C8 Aileron has more interior space, which results in a higher comfort level and improved ergonomics. The interior, with its typical attention to detail, is made of the highest quality leather, from the Litano range of the Dutch Royal Tannery Hulshof. The leather interior is available in 14 standard colours, but any other colour – if desired by the customer – can be ordered as an option.
Driver and passenger sit low, close to the car’s centre of gravity, where they can feel the car reacting to the input of the driver, for a direct and sporting connection between car and driver.
The dashboard was completely redesigned to suit the new Spyker identity and to improve ergonomics and functionality. Air vents are designed in turbine style and the performance and distribution of the air conditioning was improved significantly. A multifunctional LCD display is integrated between the speedometer and the odometer. The middle console accommodates the standard Kharma sound system (see In-Car Entertainment). Chronoswiss dials and switches are available as an option. More space was created around the Spyker characteristic floor-mounted pedal box. The impression of professional functionality and ergonomic styling is enhanced by the optimised positioning of the door handle and the hand-brake lever.

In-Car Entertainment
With larger numbers of cars going into the market and the increased popularity of the iPod and similar products, the demand for a standard sound system fitted by the factory increased. As a result, every Spyker C8 Aileron will be equipped as standard with a Kharma sound system, incorporating a digital radio, Bluetooth interface, an iPod connectivity and a navigation system. The Kharma sound system offers joystick controls on the central console and a dashboard display, paired to 6 Kharma loudspeakers. It can be extended with two optional audio packages. The presence of a Kharma sound system in the Spyker C8 Aileron marks Kharma’s debut in the world of automotive entertainment. Kharma International produces high-end audio products and sells worldwide through a network of highly qualified distributors and dealers. All sound systems are developed, assembled and tested in the Netherlands, with the utmost care by a team of highly engaged specialists. These characteristics of high-quality products and exclusiveness are in line with Spyker’s brand values craftsmanship and exclusivity.

Suspension & Wheels
The C8 Aileron is fitted with a brand-new front and rear independent double-wishbone suspension system. The new suspension system includes a new kinematic layout of the front and rear suspension, front and rear stabilizer bars, mono-tube dampers, coil over damper steel springs, anti-dive and antisquat setup for improved handling properties. The suspension components are made of forged aluminium where possible, to keep the vehicle’s unsprung weight as low as possible. Shock absorbers are now placed vertically within the wishbones.

The Aeroblade™ wheels of the first-generation cars are replaced by newly-designed 19-inch alloy wheels. New 10-blade, 19-inch directional rotor wheels, branded Rotorblade™, are available as an option. These wheels are inspired by the turbine blades of a jet engine, which hints the new styling direction while respecting the aviation heritage. The 235/35 size tyres at the front and up to 295/30 at the rear provide the necessary road holding.
Brakes
Brakes are supplied by AP Racing, a partner from day one. Black brake calipers with Spyker script are standard. Colour-coded calipers with Spyker script can be ordered as an option. Carbon ceramic brakes will be available as an option soon.

Technical Specifications: Spyker C8 Aileron Body: Two-seat, two-door body.

All-aluminium spaceframe chassis composed of extrusions and folded sheet aluminium. Extruded aluminium side-impact bars and integral rollover bars. Xenon headlights with LED sidelights and indicators. LED taillights.

Weight : 1425kg (3142lbs)
Wheelbase : 2727mm (107”)
Length : 4617mm (182”)
Width (exc. mirrors) : 1972mm (77”)
Front track : 1625mm (64”)
Rear track : 1645mm (65”)
Height : 1270mm (50”)
Fuel tank capacity : 57 litres (15 US gallons)
Engine Aluminium 4.2 litre (4163cm3) V8 spark-ignition.
Mid-mounted engine. Fully stainless steel exhaust system with active bypass valves.
Max power : 298Kw (400bhp)
Max torque : 480Nm (354 lb.ft)
Max revolutions : 7200 Rpm Acceleration : 0-100 km/h – 4.5 seconds
Max speed : 300 km/h (187 mph)
Transmission
Manual: rear mid-mounted 6-speed Getrag manual gearbox.
Automatic: rear mid-mounted 6-speed ZF automatic gearbox with torque converter. Rear-wheel drive.
Suspension
Front and rear independent forged aluminium double wishbone suspension system, including a new kinematic layout of the front and rear suspension, front and rear stabilizer bars, mono-tube dampers, coil over damper steel springs, anti-dive and anti-squat setup for improved handling properties.
Brakes
Radial-mounted four-piston AP Racing brake calipers. Brake calipers available in various colours with Spyker logo.
Anti-lock Braking System (ABS).
Electronic Brake Distribution (EBD).
Front: 350mm diameter vented and cross-drilled steel brake discs.
Rear: 332 diameter vented and cross-drilled steel brake discs.
Wheels and tyres Standard: 19” alloy wheels. Optional: 19” directional Rotorblade™ alloy wheels (10-blade design) Front: 8.5Jx19 inch, rear: 10Jx19 inch Tyres, front: 235/35 ZR19, rear: 295/30 ZR19
Interior
Full-leather interior by Dutch Royal Tanneries Hulshof.
Brushed aluminium dashboard. Turned aluminium dashboard and Chronoswiss dials are optional.
Air conditioning.
Driver and passenger airbags with passenger airbag deactivation switch.
In Car Entertainment
Kharma Sound System incorporating a digital radio, Bluetooth interface, iPod connectivity and navigation system.
Price
European retail price excl. taxes EUR 189,990.- (with manual gearbox, excluding options) EUR 195,990.- (with automatic gearbox, excluding options)

Further developments The Spyder version of the Spyker C8 Aileron is in final development, and is scheduled for launch at the Pebble Beach Concours d’Elegance in August 2009. It will feature a semi-automatic soft-top roof structure.

2008 Acura NSX Delayed once Again!


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The Advanced Sports Car Concept that Honda unveiled earlier this year was supposed to be a preview of the next 2008 Acura NSX. The car was set to be unveiled at the Tokyo Auto Show later this year. But now comes word that Honda may be going back to the drawing board. Apparently the car did not get the reaction that Honda was hoping for. 


According to Leftlane News and Winding Road, the car will still keep the major configurations of the concept (V-10 engine and all-wheel-drive). The car is also still set to be unveiled at the Tokyo Auto Show this fall and begin production early next year. 

I agree, the car didn't really do it for me like the original NSX. Glad to hear that other people felt the same way. 


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Covini C6W

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C6W is an Italian 2-seat, 2-door sports coupĂ© with a removable roof section. Inspiration for the car was taken from the 1976 Tyrrell P34, which had two pairs of smaller front wheels, a principle applied to the C6W. The project was started in 1974 but abandoned shortly after, and left dormant into the 1980s due to the lack of availability of low-profile tires at the time. In 2003 the project was revived and in 2004 the C6W was shown in prototype form. In 2005 a slightly revised version debuted at the Salon International de l’Auto, featuring new wheels, new roof structure and a refreshed interior, and went into limited production of 6-8 cars per year, as a result of a tie-up between PMI and Covini Engineering.


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C6W project is pointed in the direction of new research into active and passive safety. This aspect encouraged the interest of many  companies in its development. 

… and performances …
4 steering front wheels permit to increase braking, comfort and directional stability.  Besides, the lightness of the car (less then 1200Kg), due to its essentiality, can give superb driving sensations.

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2007 Chevrolet Camaro Convertible Concept Car

 

Combining dramatic design and exciting performance, the Chevrolet Camaro Concept recaptures the spirit of one of the most popular sport coupes of all time and redefines the Camaro for new generations of fans.

The Camaro Concept embodies the performance and passion that have made first-generation Camaros some of the most sought-after collector cars, updating the formula with a fuel-efficient powertrain, sophisticated chassis and contemporary design execution. The goal is to make the sport coupe relevant to younger
enthusiasts while retaining its appeal to its current fans.


 

“Millions of people of all ages fell in love with the Camaro for all of the right reasons,” said Ed Welburn, GM vice president, global design. “Camaros were beautiful to look at and offered performance that could rival expensive European GTs. Yet they were practical enough to drive every day and priced within the reach of many new car buyers.”

Though only a show car at this point, the Camaro Concept is intended to explore customer reaction to design and engineering elements that might lead to an all-new version of the Camaro.

The long hood, short deck and wide stance of the Camaro Concept leave no doubt that it is a serious performance car. Those looks are backed up by a 400-horsepower aluminum small-bock V-8, a six-speed manual transmission, and a sophisticated chassis with four-wheel independent suspension.

Like its forebears, the Camaro Concept would be practical enough for everyday use. It features fuel-saving features like Active Fuel Management™ cylinder deactivation technology, yielding highway fuel economy of 30 mpg or better. Its overall size is a comfortable fit for city streets and suburban parking lots, and its back seat provides occasional seating for two adults.

Maserati MC12

www.robson.m3rlin.org - Maserati MC12



The Maserati MC12 is a two-seat sports car produced by Maserati to allow a racing variant to compete in the FIA GT Championship. The car entered production in 2004 with 30 cars produced (five of which were not for sale). A further 25 were produced in 2005 making a total of 50 cars available for customers, each of which were pre-sold for €600 000.Maserati designed and built the car on the chassis of the Enzo Ferrari but the final car is much larger with less drag coefficient. The MC12 is longer, wider and taller and has sharper nose and smoother curves than the Enzo Ferrari, which has faster acceleration, better braking performance (shorter braking distance) and a higher top speed. The top speed of the Maserati MC12 is 330 kilometers per hour (205 mph) whereas the top speed of the Enzo Ferrari is 350 kilometers per hour (217.5 mph).

The MC12 was developed to signal Maserati’s return to racing after 37 years.[9] The road version was produced to homologue the race version. One requirement for participation in the FIA GT is the production of at least 25 road cars. Three GT1 race cars were entered into the FIA GT with great success. Maserati began racing the MC12 in the FIA GT toward the end of the 2004 season, winning the race held at the Zhuhai International Circuit. The racing MC12s were entered into the American Le Mans Series races in 2005 but exceeded the size restrictions and consequently paid weight penalties due to excess range.


www.robson.m3rlin.org - Maserati MC12


Development
Development of the Maserati MC12 began while Maserati was owned by Ferrari in order to create a race car for Maserati that would be eligible to compete in the FIA GT. Its initial name was the MCC, meaning Maserati Corse Competizione, and development under the direction of Giorgio Ascanelli was planned to be simultaneous with that of the MCS, the road going version. The body shape was developed from an idea by Giorgetto Giugiaro during wind tunnel testing, though the majority of styling was by Frank Stephenson. The MCC had a very similar body shape to the MC12 but there were several key differences, most notably the rear spoiler. Andrea Bertolini was the chief test driver throughout the development (although some testing was done by Michael Schumacher), frequently testing the MCC at the Fiorano Circuit. As the MCC was developed further, word of the MCS ceased and eventually the final name, MC12, was announced.

The car is based heavily on the Enzo Ferrari, sharing the same Ferrari Dino V12 engine with slight modifications, the same gearbox (but renaming it Maserati Cambiocorsa) and the same chassis and track (length of axle between the wheels). The Maserati MC12 has its own bodywork which is wider, longer and slightly taller leaving the windshield as the only externally visible component shared with the Enzo. This extra size allows for greater down force across the whole body, adding to that of the two meter spoiler.

Overview
The MC12 is a two-door coupe with a targa top roof, although the detached roof cannot be stored in the car. The mid-rear layout (engine between the axles but behind the cabin) keeps the centre of gravity in the middle of the car, which increases stability and improves the car’s cornering ability. The standing weight distribution is 41% front: 59% rear; at speed however, the downforce provided by the rear spoiler affects this such that at 200 kilometres per hour (125 mph), the effective weight distribution is 34% front: 66% rear.


www.robson.m3rlin.org - Maserati MC12 
 


Engine
The MC12 sports a 232 kilogram (511 lb), six-litre (5,998 cc/366 cu in) Enzo Ferrari-derived V12 engine, mounted at 65°. Each cylinder has four valves, lubricated via a dry sump system, and a compression ratio of 11.2:1.These combine to provide a maximum torque of 652 newton meters (481 lb/ft) at 5500 rpm and a maximum power of 630 PS (460 kW; 620 hp) at 7500 rpm. The red line rpm is indicated at 7500—despite being safe up to 7700—whereas the Enzo has red-line at 8200 rpm.

The Maserati MC12 can accelerate from 0–100 kilometers per hour (62 mph) in 3.8 seconds (though Motor Trend Magazine managed 3.7 seconds) and on to 200 kilometers per hour (125 mph) in 9.9 seconds. It can complete a standing (from stationary) quarter mile in 11.3 seconds with a terminal speed of 200 kilometers per hour (125 mph) or a standing kilometer in 20.1 seconds. The maximum speed of the Maserati MC12 is 330 kilometers per hour (205 mph).

The power is fed to the wheels through a rear-mounted, six-speed semi-automatic transmission. The gearbox is the same as the Enzo’s transmission (tuned to different gear ratios) but renamed “Maserati Cambiocorsa”. It provides a shift time of just 150 milliseconds, and is mechanical with a 215 millimeter (8.5 in) twin plate dry clutch. Chassis. The MC12’s chassis is a monocoque made of carbon and nomex, with an aluminum sub-chassis at the front and rear. It has a roll bar to provide additional strength, comfort and safety. Double wishbone suspension with push-rod-operated coil springs provide stability and dampers smooth the ride for the passengers. The front of the car can be raised for speed bumps and hills by pressing a button that extends the front suspension. There are two modes for the chassis’ tuning which can also be changed with a button in the cabin: Sport, the standard setting, and Race, which features less of the Bosch ASR (Anti-Slip Regulation) traction control, faster shifts and stiffer suspension.


www.robson.m3rlin.org - Maserati MC12



Wheels
The MC12 has 480 millimeter (19 in) wheels with a width of 230 millimeters (9 in) at the front and 330 millimeters (13 in) at the rear. The tires are Pirelli P Zero Corsas with codes of 245/35 ZR 19 for the front tyres and 345/35 ZR 19 for the rear. The brakes are Brembo disc brakes with a Bosch anti-lock braking system (ABS). The front brakes have a diameter of 380 millimeters (15 in) with six-piston calipers and the rear brakes have a diameter of 335 millimeters (13.2 in) with four-piston calipers. The centre-lock wheel nuts that hold the wheels to the chassis are color coded: red on the left of the car, blue on the right.

Reception
The car has generally received positive reviews, but its critics say it is hard to drive, overpriced and too large. Other criticisms include the lack of a trunk, rear window, spare tire and radio, and the way the car’s engine was limited or “drugged”. Current driver for Vitaphone Racing Team Andrea Bertolini, the chief test driver throughout the development, said the car “reacts well and is very reliable in its reactions.”

The Top Gear television series acquired an MC12, and test driver The Stig achieved a lap time of 1:18.9 around the Top Gear track—0.1 seconds faster than his lap in the Enzo Ferrari. Host Jeremy Clarkson also drove it, comparing it to the Maserati Biturbo, a car he disliked. Clarkson criticised the car greatly, pointing out that, like the Enzo, it lacks a rear window. He also commented that it is “difficult” due to its size, and “one of the twitchiest cars” he has ever driven, meaning a small action by the driver results in an exaggerated reaction from the car. For these reasons, he promptly renamed the car “The MC Hammer”. Regarding the design of a racing car and modification to road standards he said, “Is it a racer? Is it a GT car? Is it a de-tuned Enzo in a fat suit? You can’t really tell.” Despite his criticisms he did compliment the smooth ride:
This car glides over bumps, the suspension absorbing the road-worker Johnnies’ laziness without transferring a single ripple to the cool blue interior with its Milanese fashion house upholstery.

Motor Trend Magazine reviewer Frank Markus had a more positive opinion. Despite initial skepticism he said, “It turns out that the Enzo makes a more comfortable and attractive road car when made over as a butch Maserati racer in street couture”. Markus complimented the stability of braking and the handling ability of the MC12, especially the drifting allowed by the traction control when cornering, commenting that “There’s none of the knife-edged limit handling we criticised in the more extreme Enzo. It’s even more forgiving at the limit than an Acura NSX.”

www.robson.m3rlin.org - Maserati MC12 
 

When Automobile Magazine tested an MC12, reviewer Preston Lerner called it “user-friendly”, praising the responsiveness and simplicity of driving. Lerner approved of Frank Stephenson’s work with the styling of both the car’s exterior and interior, calling the trim “Speed-Racer-ish” but “without looking as though it belongs in a Nitrous-ized Civic”. He also complimented the ASR’s level of intervention, commenting that it “lets the fun factor get reasonably high before kicking in”.

Recently Evo Magazine ran the MC12 at Nordschleife and obtained a 7:24.29 second lap time.This was also the second time an MC12 recorded a faster lap time than its Ferrari counterpart, with the Enzo lapping the track exactly 1 second slower. Both times were set by the same driver, Marc Basseng.

Lotus Project Eagle LG


Lotus Project Eagle LG - robson.m3rlin.org


Eagerly anticipated and making its official global debut at the British Motorshow in London on July 22nd, the first all-new car from Lotus since the iconic Elise in 1995, will enter the sportscar market as the only mid-engined 2+2 in production.
The new car, which is known only by its project name ‘Eagle’, is a more holistic offering than the Elise and Exige models that have been so massively popular with track day enthusiasts. The car, the name for which will be announced at the British Motorshow on 22nd July at an 11:30 press conference, is designed for people who desire exotic sportscar characteristics of stunning design, exclusivity, dramatic proportions and performance.
Project Eagle also offers real-world usability and a unique sense of occasion. Powered by a 3.5-litre V6 producing 280 PS, the new car employs innovative lightweight chassis technology to ensure visceral all-round dynamic performance, in keeping with the great Lotus tradition. Even in the very early stages of development testing, Lotus ride and handling engineers report that it is considerably faster around the famously demanding NĂĽrburgring circuit than the Elise and more stable at speed than the Exige.
Inside, Project Eagle cocoons occupants with a sumptuous leather surfaces juxtaposed with contemporary high-tech features. With driver focused instrumentation the driver sits in cockpit-esque surroundings. A beautifully appointed dash boasts tactile details such as flush-mounted controls that glow with blue LED haloes and a stylised speedometer and rev counter ensuring that controls are both attractive and accessible.
Styled in-house by Lotus Design, the Project Eagle’s sleek, sophisticated and attention-snaring lines brilliantly disguise its ability to accommodate passengers in the rear of the cabin, giving the car the external characteristics of a small, nimble sports car whilst belying its internal space. As well as being sold in a 2+2 configuration, the car will also be available as a purely two seater, the space in the rear being allocated to luggage storage. Other derivatives are also planned for the future, including a convertible and an ultrahigh performance version.

Lotus Project Eagle LG - robson.m3rlin.org


Deliveries of Project Eagle will begin in Spring 2009, and with only 2000 of the hand crafted cars planned each year, this exclusive and unique car is creating a real stir with celebrity enthusiasts around the world. Hollywood actor and car enthusiast Patrick Dempsey is just one of the high profile collectors who are on the waiting list for a test drive.
Mike Kimberley, CEO of Group Lotus plc, had this to say about the new model: “Project Eagle is the biggest milestone Lotus has achieved since the Elise was born 13 years ago. We are currently working at broadening the 15th appeal of the Lotus brand through an aggressive 5-year model plan of which this car represents the first exciting step.”
Project Eagle in detail
Project Eagle is the first of three new models included in the CEO’s (Mike Kimberley) five year strategic business plan initiated in October 2006 to support Lotus’ growth.
Design
Designed in-house by Lotus Design, Head of Design, Russell Carr, explains “Project Eagle’s dynamically sculptured form and dramatic proportions communicate visual drama, speed and agility even when the car is standing still. Sports-cars are primarily an emotional rather than a rational purchase and so the design must seduce with its beauty and distinctive character. However, the modern customer also demands that the product offers real-world usability as well as exotic imagery. Therefore every element of the car’s exterior and interior has been carefully designed to create a product that offers comfort and convenience as well as traditional performance car attributes.”
A design language of dynamic lines and fluid surfaces that flow from the ‘Lotus –mouth’ and over the length the cars toned form are unmistakably ‘modern Lotus’. They instantly convey a sense of agility and athleticism that is intrinsic to the car’s driving persona. On Project Eagle they are complemented by the distinctive wraparound visor screen but have been subtly tailored to suit the more sophisticated character of the car, optimize high-speed aerodynamics and artfully disguise the unique 2+2 layout. The cab forward proportion combines with muscular haunches and optimized intake detailing to instantly inform the viewer that this is a serious mid-engine sport-scar. Elsewhere a Lotus philosophy for combining function with beauty is evident in the down force generating, top exit radiator vent, rear diffuser and rear wing. Inside the car the forms echo the exterior with fast moving surfaces that wrap around the cockpit cosseting the occupants, the contrast color band that flows from the instrument cluster and sweeps around the cabin highlights this theme. “We recognize that ‘touch’ not only assists with driving enjoyment but also conveys messages about quality and therefore great attention has been paid to all the areas where the driver interfaces with the car.” Carr explains. Figure hugging adjustable sports seats and flat-bottomed steering wheel instantly communicate the driving potential of the car. Project Eagle employs premium quality material and finishes to create an exclusive, British handcrafted ambiance that is unique in this price segment. Modern, precision engineered aluminum inserts and hi-fi quality, edge-lit switches are brilliantly juxtaposed against the traditional contrast stitched leather panels.

Lotus Project Eagle LG - robson.m3rlin.org


Everyday convenience is catered for through ergonomically located touch screen SAT NAV, remote release glove box, storage bins and integrated “cup holders”.
Technology
In a world launch by partners Alpine, Project Eagle boasts a truly cutting edge in-car entertainment and navigation system. The multi-media system features a 7in touch-screen providing advanced audio, satellite navigation, Bluetooth hands-free telephone and iPod® connectivity functions; the screen also serves as a monitor for Project Eagle’s optional reversing camera. The satellite navigation element of the system has a removable hard-drive, allowing you to programmed it from the comfort of your home or use it as a roaming satellite navigation unit and MP3 player.
The Alpine audio set-up is one of the most sophisticated automotive systems in the world. Called IMPRINT and using MultEQ sound enhancement technology, it is able to cancel out imbalances in the sound caused by different areas of the cabin – window glass, for instance, creates echoes, while carpets suppress mid-range frequencies – resulting in amazingly crisp,
clear, undistorted sound reproduction wherever you are seated in the car. A bespoke progressive air-conditioning system developed by Bergstrom is standard on all models, while on-board tire pressure monitoring will be either standard or optional depending on model and market. And in deference to the American market in particular, a module in the headlining will accommodate automatic garage and gate opening remote controls.
Interior space and accommodation
The rear seats of 2+2 versions of Project Eagle are intended for children or smaller adults on short journeys. To maximize comfort in the rear, there is foot-room under the seats in front, while both back seats feature ISOFIX mountings for secure child seat fitment. When unoccupied, the rear seats provide a convenient stowage area for briefcases and jackets, adding to Project Eagle’s appeal as an everyday car.
The boot, which ingeniously features a fresh air cooling system to reduce the effect of heat ingress from the engine bay, will accommodate a set of golf clubs.
A two-seater derivative of Project Eagle is planned and will have a luggage shelf in the back replacing the two rear seats.
Safety
Lotus’ Project Eagle conforms to all regulatory standards and in addition boasts additional safety features; Lotus aluminum chassis technology applied to Project Eagle’s provides the car with immense inherent strength, particularly in regard to side impacts and a tubular steel seat belt anchorage frame that also acts as a rollover structure.
Anti-lock brakes are standard on all models, as are traction and stability controls; these systems have been specially developed in co-operation with Bosch to provide enhanced safety features whilst maintaining performance characteristics.

Lotus Project Eagle LG - robson.m3rlin.org


Under the bonnet
Lotus continues its excellent working relationship with Toyota, world leaders in engine development and manufacture and Formular1 competitors. For Project Eagle Lotus has modified Toyota’s 3.5-litre V6, with dual VVT-i (‘intelligent’ variable valve timing) for optimum performance.
Performance
At the time of unveiling, full performance figures for the new Lotus will not have been compiled on a production specification car, however Lotus has a further 6 months of development time to conduct these before Project Eagle is available to test drive.
While for Lotus top speed is of less importance than stability at speed, early indications suggest a maximum speed of 160 mph; the 0-60 mph sprint from standstill is estimated at sub 5 seconds (prototype figures).
Lotus revealed today the first official information on the 2010 Project Eagle that will make its world debut at the British Motorshow on 22nd July at an 11:30 press conference. This is the time when Lotus will also reveal the official name of the car.
The Project Eagle is powered by a modified version of Toyota’s 3.5-litre V6, with dual VVT-i that produced 280 hp. It can hit a top speed of 160 mph; the 0-60 mph sprint from standstill is estimated at sub 5 seconds (prototype figures).
Styled in-house by Lotus Design, the Project Eagle’s sleek, sophisticated and attention-snaring lines brilliantly disguise its ability to accommodate passengers in the rear of the cabin, giving the car the external characteristics of a small, nimble sportscar whilst belying its internal space. As well as being sold in a 2+2 configuration, the car will also be available as a purely twoseater, the space in the rear being allocated to luggage storage.
Deliveries of Project Eagle will begin in Spring 2009, and with only 2000 of the hand crafted cars planned each year, this exclusive and unique car is creating a real stir with celebrity enthusiasts around the world.

Ford Shelby Cobra GT500

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The spectacular success of the 2005 Mustang has put Ford in a giddy mood. The suits invited Carroll Shelby to Dearborn for consultation. The result is the Ford Shelby Cobra GT500 on these pages, a faithful preview of a 450-plus-hp 2007 production model you’ll be able to purchase in the fall of ’06 for less than $40,000.

If you crave Corvette speed but need a back seat, you might consider switching allegiance to the blue oval. Before he cleaned out his desk early this year, John Coletti and his loyal SVT coconspirators conjured up the makings of a Stingray spoiler: the revitalized Mustang muscled up with fatter rubber, bigger brakes, aero accessories, and a totally irresponsible load of horsepower. Shelby spent five hours riding Coletti’s mule before filing this succinct assessment: “Wow!”

With eighty-two years under his hat, Shel has seen and done it all. When he says “Wow!” it’s not because his bursitis is flaring up.

The Shelby tie-in is perfect, because this is another ride back to the glory days of Ford’s Total Performance period. Ford’s 1962-70 juggernaut left burned-rubber traces all over the drag, road-course, off-road, rally, stock-car, Indy-car, and Formula 1 racing worlds. In June 1962, Ford said “Screw you!” (in so many words) to the Automobile Manufacturers Association’s ban on factory motorsports participation. Agents were dispatched to buy Ferrari; when that initiative failed, Ford signed a blank check to beat the Scuderia at Le Mans with the GT40 and its derivatives.

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Shelby was equally low on Enzo Ferrari’s Christmas-card list in the early 1960s. After being rebuked by GM, Shelby in 1961 asked Ford to supply engines for his Cobra sports cars. Four years later, he returned the favor by removing the back seats from Ford Mustangs to convince the Sports Car Club of America that the cars deserved eligibility in the club’s B Production ranks. Three dozen R-model Shelby GT350s built with Ford’s blessing gave amateur racers the ammunition necessary to break Corvette’s lock on the B Production championship. The Ford-Shelby courtship also yielded an interesting run of steroidal Mustangs for street use. The second car in that series was the 1967 Shelby-Mustang GT500 fastback, powered by a 7.0-liter big-block V-8 that inhaled through two Holley four-barrel carburetors to produce 355 (gross) hp.

Forty years later, it’s dj vu all over again. Ford and Shelby are still doing deals. The new Mustang is striped and spoilered as a salute to its illustrious forefathers. This time, the cast-iron block under the hood is gorged with double overhead cams, thirty-two valves, and an Eaton supercharger. And that old live axle is back for another dance.

Dolled up for this spring’s New York auto show, the nuevo GT500 follows ’60s-era recipes to the letter. It’s the classic big engine stuffed into a barely modified standard car. Suspension alterations are mainly tuning tweaks. The only sheetmetal change is an aluminum hood bulked up like a football captain on prom night. According to Hau Thai-Tang, Ford’s new director of advanced product creation and SVT programs, this project is the first tangible evidence of SVT’s revised game plan. Instead of well-meaning but ultimately half-finished attempts to reinvent the high-performance automobile, SVT hereafter will focus on more circumspect alterations of mainstream products delivered with a significantly higher level of execution.

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Even though SVT’s leash is tighter, the new GT500 is a credible step beyond the last Mustang Cobra (2003-04). That 390-hp snake had a 4.6-liter four-cam V-8 at the core, whereas the new Shelby edition moves to the 5.4-liter block that powers the Ford GT and various large trucks. Mixing and matching parts, the GT500′s powerplant gets the Eaton Lysholm screw-type supercharger, air-to-water intercooler, and four-valve DOHC heads from the Ford GT mated to the iron block found in the workaday trucks. As the result of a stroke that’s 17 percent larger than the bore, this engine will be a growler, not a screamer; the redline on the show car’s tach is stuck at the standard Mustang’s 6000 rpm.

While the engineers are still tuning, expectations are that the 500 badge won’t be that boastful. Today’s spec sheet lists “450-plus” hp with 450 lb-ft of torque and 8.5 psi of boost (versus the 550-hp Ford GT’s 12.0 psi). Don’t be surprised if market conditions nudge the final figure upward. Backing up the blown motor is a wide-ratio Tremec T-56 transmission with six forward gears-two of which are overdrive ratios. (Standard and GT Mustangs currently get by with five-speed manual transmissions.)

Exterior alterations are more than two-tone frosting on the GT500′s fortieth birthday cake. Chief designer Doug Gaffka re-beveled the grille opening, lowered the driving lights, and sent the horsey badge galloping. New twin apertures, filled with black diamond mesh and a side snake, mouth the appropriate “Outta the way, sucker!” visual statement. Two slots in the hood exhaust some of the air rammed through the intercooler, radiator, and A/C condenser heat exchangers. A discreet black splitter at the lower edge of the front fascia helps cancel high-speed lift. The black-skirt theme continues down the sides of the car and across the tail in a simulated diffuser panel. While the side and rear trim are nonfunctional, the requisite trunk-lid spoiler does cancel some of the aerodynamic lift at the rear. All four views of the exterior show a hissing snake, and the Shelby name is writ conspicuously across the trailing edge of the trunk lid in racetrack typeface. SVT identification is relegated to the wheel-center caps.

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Patterned after the Ford GT’s forged-aluminum wheels, the cast rims that adorn the GT500 concept are a meaty 9.5 inches wide. Goodyear Eagle F1 rubber in a 255/40YR-19 size plants a tread approximately 0.4 inch wider than the standard Mustang’s seventeen-inch four-season radials. Expect eighteens on the ’07, with nineteens optional. Neither will be enough; count on billowing white smoke trailing the GT500′s every move.

When that cloud clears, there’s a nice view of the upgraded braking equipment through the machined wheel spokes. Black-painted Brembo calipers-with four pistons in front, two in back-hug cross-drilled and radially vented brake rotors. The gain in rotor diameter is a substantial 1.6 inches in front (to 14 inches) and 1.5 inches in back (to 13 inches). Suspension changes, which currently are under development, likely will be limited to recalibrated springs and dampers, though preliminary specifications also list a stiffer rear antiroll bar. While we’re skeptical about this much power delivered via a live rear axle, a race-prepped 2005 Mustang did win its Grand-Am Cup class at Daytona in February. Electronic traction control will continue (with a disabling switch), but there are no plans to add stability assistance.

The show car’s interior theme can be summed up in one word: leather. The standard Mustang’s molded-plastic surfaces are swathed by an uninterrupted layer of stitched black hide. It trims the door panels, steering wheel, shifter, parking-brake handle, dash top, and console. The seat center panels are red perforated leather in the classic tuck-and-roll motif. A matte-aluminum finish for the shift knob, steering-wheel spokes, instrument rings, and vent registers replaces the standard Mustang’s blindingly bright metal decor. Metal trim plates running across the middle of the dash are subdued with a black-dot pattern, while the gauge faces-which Ford calls titanium-look pitch black to us. The 7000-rpm tachometer was moved from the left to the right tube to enhance its visibility.

Predicting how much of this hide and horsepower will make the leap to production is a fool’s game right now. However, this much we can say: With the weight gain held to 200 pounds and the power curve clearing the 470-hp hurdle, the GT500 could arrive with a Corvette-trumping power-to-weight ratio. Carroll Shelby wouldn’t have it any other way.

Automotive Lotus Exige Sport

lotus_sport_exige_1_2005-1.jpg 

Lotus Sport, the performance division of Lotus Cars Ltd., has developed the new Lotus Sport Exige, a direct motorsport derivative of the successful Lotus Exige. The Lotus designed and engineered racecar was part manufactured by RTN, the team responsible for the Le Mans winning Bentley, using the latest motorsport techniques and procedures to produce a lightweight yet strong carbon-fibre bodywork structure around the standard road-going Lotus Exige Aluminium extruded and bonded chassis.

The Lotus Sport designed fully adjustable suspension system with double wishbones all round was fabricated and manufactured by Pilbeam. Power is provided by a 400 hp Swindon Racing Engines tuned GM 3 litre V6 racing engine linked to a Hewland sequential six-speed gearbox, with AP-Racing providing the braking system. 

This one-off racecar has been built for a South East Asian client and is expected to race in selected sportscar races in Asia. There are no plans as yet to build further examples of the Lotus Sport Exige but the base structure has been carefully designed to comply with key motorsport regulations around the world. Adhering to the key Lotus philosophy of performance through lightweight, the Lotus Sport Exige weighs in at just 850kg. The whole project, conducted in complete secrecy has taken less than 6 months and the car will run for the first time at the 2½ mile Hethel test track in mid January.

Chris Arnold, General Manager for Lotus Sport explains the philosophy behind the Lotus Sport Exige:
lotus_sport_exige_1_2005-2.jpg 

“The Lotus Sport Exige is a competition car developed directly from the road going Exige. The racecar uses the existing tub with only minor modifications, and careful design has enabled Lotus Sport to package an upgraded powertrain assembly whilst maintaining an equivalent weight to the existing road car. When this package is combined with further improvements to suspension and bodywork, it produces a fantastic looking car with great track potential. 

The car has been taken from concept to reality in only six months and I thank all our engineering partners and the staff at Lotus who have worked so hard on this fantastic project.” As the Lotus Sport Exige is, at present, a one-off racecar, a price cannot be given for the racecar package.

The Lotus Sport Exige is directly developed from the road-going Lotus Exige that was unveiled at the Geneva Motorshow in 2004. The heart of the Sport Exige is the bonded and extruded Aluminium Chassis, the technology for which was first introduced in the Lotus Elise in 1995. The Exige chassis, which is also used in the Lotus Elise 111R, is the latest development of this award winning structure and weighs 68kg and has a torsional stiffness of 10500 Nm/degree. Made up of 25 separate extrusions, and bonded with an epoxy adhesive, the chassis in the Lotus Sport Exige is an exceptionally stiff, strong and lightweight structure. This Lotus technology is so world-leading that it has been used on other non- Lotus products including high performance production front-engined V12 and V8 GT cars.

An FIA approved 8-point roll cage has been bolted to the chassis, prior to the bodywork being fitted.
lotus_sport_exige_1_2005-3.jpg 

Double wishbone front suspension is mounted to the same suspension hard points as the road-going Lotus Exige, whilst the rear suspension picks up to a revised rear subframe. However, being a full racecar, there is adjustment for ride height, camber and castor, as well as adjustable front and rear anti-roll bars. Coil springs are mounted over Ohlins ST44 3-way adjustable dampers front and rear.

Lightweight “Z-Preg.” carbon fibre bodywork was specially manufactured for Lotus by RTN, the team responsible for the Le Mans winning Bentley. These panels (front clam, “A” panel, body side and sill, roof, engine cover and rear clam) have been made using an innovative low temperature curing process. The moulds were taken directly from the Sport Exige styling “clay” and the resulting carbon fibre panels are race-ready without having to rely on the costly tooling process used in current carbon fibre technology. This is thought to be the first time that this technology has been used on such large carbon fibre panels.

An aerodynamically developed front splitter, carbon fibre rear diffuser and an adjustable carbon rear wing provide increased levels of downforce. The interior of the Lotus Sport Exige is similar to the standard Exige, but the standard roadcar wiring harness is replaced with a full Raychem 25 system incorporating Mil-spec connectors from Beru Formula 1 Harnesses. Conventional fuses are replaced with circuit breakers, and a Stack display with integrated data recording is fitted as standard.

A racing bucket seat (driver side only) is mounted as right hand drive to optimise weight balance through right hand corners (most circuits run clockwise). A six-point seat belt, prepared for using HANS Safety System, and a removable steering wheel (with quick-connect coupling) is included in the interior package. The composite energy absorbing crash structure used on the standard road cars is also carried over to the Lotus Sport Exige. This glass fibre composite structure, around five times more energy absorbing than the equivalent steel component, also houses the larger water radiator and provides efficient cooling and air ducting over the carbon front clamshell.

A 100 litre FT3 safety fuel cell (with quick refuelling system) is mounted behind the driver and in front of the engine (as with the road-going Exige). A fully plumbed in electrical fire extinguishing system completes the body package. AP Racing provides the non-ABS braking system, which includes the pedal box (with brake balance bar and cylinders). AP Racing also provides the powerful six piston brake calipers at the front and four piston brake calipers at the rear. These calipers are mated to vented discs (344 mm diameter at the front and 330 mm diameter at the rear).

Ultra lightweight OZ Racing Chrono single-piece cast magnesium rims (8.8J x 17 ET40 at the front and 11.25J x 18 ET50 at the rear) are shod with Yokohama tyres (250/610-17 at the front and 280/650-18 at the rear).

lotus_sport_exige_1_2005-4.jpg 

A narrow angle V6, 2,998 cc Swindon Racing Engines tuned GM racing engine is mounted longitudinally in the Lotus Sport Exige. The naturally aspirated 24-valve engine produces 400 hp (296 kW or 405 PS) at 7,750 rpm and 294 lb.ft (398 Nm or 40.6 kgm) of torque at 6,500 rpm and has a maximum engine speed of 8,250 rpm. When the light weight of the Lotus Sport Exige is taken into consideration, the power to weight ratio is a phenomenal 470 hp / tonne (0.351 kW/kg or 476 PS/tonne). The engine itself weighs 157 kg.
Breathing is via an F1-style airbox and air snorkel from the roof panel of the Sport Exige directly into the six carbon fibre air trumpets.

The dry-sump engine, with a bore of 86 mm and stroke of 86 mm is water cooled and also uses an oil-water heat exchanger to efficiently cool the oil. The whole engine is controlled by a Motec M600 electronic engine management system fitted inside the cockpit. The power is transferred from the engine to the rear wheels via a single mass stepped flywheel, AP Racing twin-disc cerametallic race clutch and Hewland NLT sequential six-speed dog type transmission (with in-line shift mechanism). The gearbox itself is cooled through an oil-water heat exchanger. A limited slip differential (separate power and brake ramp angles) completes the powertrain package.

The one-off racecar has been designed by Barney Hatt (Principal Designer for Lotus Design), under the direction of Russell Carr (Chief of Design). Taking the already aerodynamic road going Exige, Hatt designed the Lotus Sport Exige with the requirements to carry the design of the Exige and the brand attributes of Lotus into a competitive racecar. Russell Carr explains the work needed to design the Lotus Sport Exige: “The objective was to create a dramatic design and to take into account aerodynamic criteria to produce a race car that was not only competitive but also stunningly good looking. General motorsport regulations also had to be adhered to so the fact that the resulting racecar looks like a natural competition evolution of the road going Exige is a testament to the purity and effectiveness of the original design.”

lotus_sport_exige_1_2005-4.jpg 

The Lotus Sport Exige is slightly longer (350 mm) and wider (100 mm) than the road-going Exige to accommodate the larger engine, wider track, longer wheelbase and to optimise the aerodynamics. The length is mainly from the cockpit rearwards but the short rear overhang design of the road-going Exige is maintained.

NEW £35K BRIT SPORTS CAR

Exige challenger planned from ex-McLaren designer




A new British sports car is on the horizon which is the brainchild of an ex-McLaren Cars designer. Jim Dowle was involved in the design, development and testing of both the F1 road car and the SLR and mostly worked for Gordon Murray.

He is now working on the design of his own car and hopes to have a running prototype in 18 months. The car is being described as a competitor to the Lotus Exige and a number of engine options are being considered.

Mr Dowle tells PistonHeads that the car will have around 200bhp from a mid-mounted motor, and the whole thing will weigh 870kg. The car is not being built for out-and-out straight line speed; the priority will be on making the car fun to drive.

He currently runs JJAD, an automotive design & prototyping business, from a unit in Chobham, 


Surrey, and is now working on a quarter scale clay model. An important factor will be providing luggage space to make the car a useable GT. Chassis construction will be aluminium/carbon composite and the price will be around £35k

SPORTS CARS WALLPAPER 2011

There are a huge array of sports cars in the auto industry today. Altered auto manufacturers aftermath altered types of sports cars and added cars. The afterward are the pictures of some of the sports cars.
 

used sports cars

new sports cars
sports car pic



fast sports cars
sports car

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