Tuesday, January 6, 2009

Bentley new Continental GTC Speed And GTC

It is quite some time since its debut in 2006, the Continental GTC has enjoyed sales success in over 50 countries across the globe, attracting younger buyers to the Bentley marque.However, there�s one more derivative of the Bentley Continental family that is yet to receive the Speed treatment and that is the stylish GTC convertible, which is set to make its debut next month at the Detroit Auto Show.

It emerges from said garage with its twin-turbo W12 producing 553 lb-ft. of torque and 600 horsepower - 100 ponies more than the Azure T, making it the most powerful convertible Bentley has ever made. The Speed treatment alters the front end, with a more upright, dark-tinted matrix grille flanked by chrome bezels around the headlights, and the face is framed by firmer lines sweeping up from the lower air dam. The mega powerplant is officially rated at 600hp (448kW) and 553ft-lb (750Nm) of torque in the Speed models, and will push the car to a top speed of 200mph with the roof up. When lowered, top speed is reduced to a still impressive 195mph. The 0-60 mph sprint is despatched in 4.5 seconds and 0-100 mph in 10.6 seconds.

While it is still not - and isn't mean to be - a sports car, the handling ante is upped by a lowered ride height, low-friction dampers, stiffer rear axle bushings, wider tires, and retuned steering. When it's time to stop, newly available carbon-ceramic brakes, at 16.5 inches up front and 14 inches in back.

The Continental GTC Speed is visually distinguished by subtle design enhancements which emphasise its higher performance credentials. At the front, the radiator and lower air intake grilles feature a dark tinted matrix as standard. Larger diameter 9.5J x 20-inch, multi-spoke alloy wheels with Bentley-bespoke Pirelli PZero ultra-high performance (UHP) tyres, lowered and uprated suspension, wider twin-rifled exhaust tail pipes and a new boot-mounted lip spoiler that enhances high speed aerodynamics, reinforce the sporting character of the Speed model.


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