[PTA SC] Ford GT (2005) Top speed 200 MPH

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Released at the 2002 North American Auto Show, Henry Ford II was proud to show off a modern-day version of Ford's most successfull endurance racer. A month after the release, Ford anounced the Ford GT would be put into production and with a price 'around six figures'. The waiting is now over, Ford have released official details of the production version.

The Ford GT supercar's design instantly stirs up images of the glorious Ford GT race cars from the 1960s. Yet a new presentation features all-new dimensions and a contemporary, striking interior - as well as epic engineering stories of how high-tech methods helped preserve a classic form.

Indeed, the first design proposal was a completely revolutionary design that interpreted cues from the past in a modern shape. The car used harder edges, abbreviated surfaces and short overhangs like a contemporary vehicle.

The second design, penned by Ford GT Chief Designer Camilo Pardo, paid more homage to the Ford GT Mark II race car. 'Freeing ourselves of the fear of creating a car that looked too much like the original was a liberating experience for the team,' says Pardo. 'But staying true to the original themes in a clean, modern design made it the most difficult project I've ever been involved with.'

That is, until the concept car was approved for production. Then, Pardo's role changed from designer to protector. As the engineering team transformed the concept, which was only 5 percent production-feasible, into a production car, Pardo was tasked with preserving the essence of the concept's design.

Since official program approval in May 2002, the 2005 Ford GT has been on the fast track for product-development timing. The build process of the first three production cars kicked off March 10, 2003. Internally, these vehicles are referred to as jobs one, two and three, referring to Ford's term for the beginning of vehicle production, job one. Regular production of the Ford GT will begin in spring 2004.

Aluminum Space Frame

Usually a new vehicle is designed from the inside out, meaning that the chassis and suspension points are set before the exterior body is designed around those dimensions. The exact opposite is true of the Ford GT. To preserve the design of the Ford GT40 concept car shown at the 2002 North American International Auto Show, the Ford GT engineering team is doing most of its work 'under the skin.'

The team developed an all-aluminum space frame, comprising 35 extrusions, seven complex castings, two semi-solid formed castings, and various stamped aluminum panels. The structure has two unique features: A large center tunnel to house the mid-mounted fuel tank and cut-out roof sections for the cantilevered doors.

Once the structure of the hybrid-aluminum design was approved, the team addressed each component to maximize strength and minimize weight. As a result, larger extrusions such as the primary frame rails have a different thickness on each wall. Portholes or windows in the complex castings - which support the suspension and powertrain - decrease unnecessary mass. Even the small castings that join the A-pillars to the roof have been fine-tuned for utmost rigidity and lightness.

Fuel System

Crash modeling verified that the center tunnel is the preferred location for the Ford GT fuel tank because it helps reduce risks, most notably in collisions. As an added benefit, the location keeps overall weight distribution and the center of gravity relatively consistent at differing fuel levels. The ship-in-a-bottle design of the fuel tank is an industry first. The mechanical components, including the fuel pumps, level sensors and vapor control valves are first mounted on a steel rail. Then, the single-piece tank is blow-molded around the rail. This method maximizes fuel volume and reduces the number of connections to the fuel system.

As another industry first, the Ford GT features a capless fuel filler neck under an aluminum cover. The aperture automatically opens as the fuel nozzle is inserted and seals the fuel system when the nozzle is removed.

Aerodynamic Development

Like the concept car, every air intake and heat extractor on the production Ford GT is functional. According to Kent Harrison, Ford GT performance development supervisor, preliminary wind-tunnel testing showed the concept car had remarkably good internal air flow.

The heat extractors in the front cowl were modified to pull more heat from the front-mounted radiators. The side intakes under the B-pillar were slightly enlarged, driving more cooling air into the engine bay and transmission cooler. Finally, an additional set of vents on either side of the rear glass help diffuse heat from the engine compartment.

To preserve the design of the concept car, Harrison had to concentrate on the underside of the vehicle. Harrison's team added a front splitter, which creates a high-pressure area for front downforce, and limits the volume of air traveling under the vehicle. They also added side splitters to prevent air from sliding under the rocker panels. A smooth, enclosed belly pan reduces underbody turbulence. Finally, venturi tunnels accelerate exiting air, creating a vacuum that literally sucks the car to the pavement. The cumulative result is significant downforce at speed and one of the most efficient lift/drag values on a production car.

Double-wishbone Suspension

double-wishbone suspension design with unequal-length aluminum control arms, coil-over monotube shocks and stabilizer bars is used front and rear. The upper control arms are the same at each corner. They are made with an advanced rheo-cast process that allows the complexity of form associated with casting while retaining the strength of forging. The metal, heated to just below its melting point, is the consistency of butter when it is injected into a mold at high pressure. Pressure is maintained as the part cures, preventing porosity in the final product for exceptional strength.

Brembo one-piece brake calipers with four pistons each grab cross-drilled, vented discs at all four wheels. The discs are a massive 14 inches in front and 13.2 inches in the rear, for fade-free stopping power. Anti-lock control and electronic brake force distribution help provide consistent, straight braking even from very high speeds.

One-piece BBS wheels are wrapped by Goodyear Eagle F1 Supercar tires, size 235/45ZR-18 in front and 315/40ZR-19 in the rear.

Supercharged 5.4-liter V-8

The Ford GT is driven by an all-new, mid-engined powertrain producing 500 horsepower and 500 foot-pounds of torque. The engine architecture comes from Ford's MOD engine family, which includes performance powertrains like the 390-horsepower 4.6-liter DOHC supercharged V-8 in the SVT Mustang Cobra and the 380-horsepower 5.4-liter SOHC supercharged V-8 in the SVT F-150 Lightning.

'We're just starting to tap the performance potential of Ford's modular engine architecture,' says Curt Hill, Ford GT powertrain engineering supervisor. 'This application really demonstrates its awesome potential. The 5.4-liter engine easily produces 500 horsepower and 500 foot-pounds of torque, while meeting all the current emissions and durability standards. Those numbers are comparable to the race-prepared, blue-printed 427 (7.0-liter) big-blocks in the Ford GT race cars.'
The Ford GT engine features an all-new, aluminum block fitted with high-flow, four-valve cylinder heads and dual overhead camshafts. To bear the stresses necessary to produce 500 horsepower, a forged-steel crankshaft, shot-peened H-beam connecting rods and forged aluminum pistons are used. 'In total, 85 percent of the reciprocating parts are unique to the Ford GT,' says Hill.

Fuel is delivered via dual fuel injectors per cylinder. A modified screw-type supercharger blowing through a water-to-air intercooler supplies sufficient airflow for engine output.

Hill's team specified two race-inspired powertrain components, a dry-sump oil system and a twin-plate clutch. The high-capacity, dry-sump oil system provides consistent lubrication, even during maximum handling. The twin-plate clutch delivers low pedal efforts while still providing the clamp loads necessary to handle 500 foot-pounds of torque. More significantly, these two features allow the powertrain to sit more than 4 inches lower in the frame as compared with the front-engined SVT Mustang Cobra. This helped maintain the low design profile and keep the car's center of gravity low for better handling. Backing the clutch is an all-new, six-speed transaxle from Ricardo. The clean-sheet design enabled Ford engineers to tailor the individual ratios to their specifications, without being forced to select from an existing assortment. The transmission is fully synchronized and features an integral, torque-sensing, limited-slip differential.

Interior

'As a race car, the original Ford GT didn't have an interior design to speak of,' says Pardo, Ford GT Chief Designer. 'They featured two seats, a steering wheel, a few toggle switches and lot of bare metal. That's it.' As such, the interior of the Ford GT is the biggest deviation from the vintage cars.

'The passenger cabin of most modern cars is isolated from the engine,' says Pardo. 'But, in the Ford GT, the supercharger is right there, inches behind your ear. It creates an intimate relationship with the engine, more like a motorcycle than a car.'

The centerpiece of the interior is a brushed-magnesium tunnel, which contains the center-mounted fuel tank. The tunnel is flanked by a pair of deep bucket seats featuring carbon-fiber shells and leather seating surfaces. To provide ventilation, the leather seat cushions are dotted with aluminum grommets similar to those used in the vintage endurance racers.

The instrument panel features a comprehensive array of analog gauges, including a center-mounted, oversized tachometer wrapped in aluminum bezels. In homage to vintage Ford GT race cars, stylized toggle switches line the panel, controlling the headlights, foglights, dimmer switch, windshield wipers and rear defroster.

The matte-black instrument panel, door panels and lower portions of the tunnel are crafted in Azdel SuperLite Composite. This is the industry's first application of Azdel throughout the interior. Azdel is roughly 30 percent lighter than standard injection-molded substrates, offers better wear resistance and is recyclable.

Exterior

Interior comfort considerations had two effects on the exterior styling of the Ford GT. To increase passenger headroom, the engineering team wanted to raise the roof height. However, the design team felt the low profile was an essential aspect of the Ford GT design. The engineers and design team fought for each millimeter, finally agreeing to raise the roof 17 millimeters above that of the concept. To compensate for the added height, Pardo returned to the studio and scaled up the entire profile, preserving the overall proportions of the design.

Second, Pardo designed the concept car with flush-mounted windows to recreate the smooth, fuselage shape of the original Ford GT. The execution of this design proved difficult since fixed windows would not be acceptable in a modern supercar, and drop-down windows created a packaging nightmare. A series of elaborate apertures were considered and rejected, until the team sectioned the window, and Pardo pushed the bottom edge of the window inboard. The solution preserves the continuity of design and allows the window glass to drop completely into the door, snaking between the hidden side-impact beam and the concave exterior door panel.

The cantilevered doors created yet another production challenge. Due to their size and shape, the exterior panels were too complex for traditional stamping. Thus, the team shaped the panels using super-plastic forming that uses air pressure to force heated aluminum panels into a one-sided die. This process also enabled the team to reproduce the sweeping curves and intersecting shapes throughout the rest of the exterior. Pardo calls the design, from the dramatic sweep of the front fenders into the nose to the transition from the C-pillars into the rear deck, 'organic and geometric.'

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2005 Ford GT breaks 200 mph barrier


Dearborn, Michigan - In 1966, the Ford GT40 was the first race car to break the 200 mph barrier at LeMans, and the new 2005 Ford GT has become the first production road car wearing the Ford badge to achieve top speed in excess of 200 mph, announced the company.


During engineering testing for high-speed stability and powertrain durability at Italy's famed Nardo test facility, the Ford GT reached a certified top speed of 205 mph. In 1966, a GT40 reached a trap speed of 201 mph on the Mulsanne Straight during the 24 Hours of LeMans endurance race.

The Ford GT engineering team took two cars to the Nardo test facility to conduct high-speed stability evaluations and run a 500-mile powertrain durability test. Aerodynamics and high-speed stability has been a major focus of the engineering program from the very beginning, when the team first tested an original GT40 in the wind tunnel. The GT40 exhibited major lift at high speeds, and the team determined that the Ford GT would also have the same issue if care was not taken to attend to the problem. In order to not disturb the well-executed exterior design, the engineering team limited aerodynamic changes primarily to the underside of the vehicle. As a result, a subtle rear spoiler extension, front and side splitters and venturi tunnels wrapped under the rear clip are the only visible changes.

"Driving the Ford GT at speeds above 200 mph was remarkably uneventful, which is a very positive outcome," said Mark McGowan, Ford GT vehicle dynamics supervisor and driver during the Nardo testing. "I was able to drive the around the 13 km track with my foot to the floor with complete confidence in the stability and control of the car at 200 mph plus. My only limitation was the amount of fuel in the tank!"

The 550 hp 5.4-litre DOHC supercharged V-8 engine was also put to the test during the Nardo trip. The engineering team required a 500-mile test at or near maximum velocity speeds to prove-out the strength and durability of the powertrain.

"The Ford GT is performing at levels of super exotic sports cars that cost 3 and 4 times as much money, and it still meets all the engineering and quality requirements of any Ford vehicle program."

The 2005 Ford GT will be built at Ford's Wixom, Michigan assembly plant. Production will begin this summer.

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