The GT is one of more than 12 new Ford Performance vehicles coming by 2020. It joins Focus RS, F-150 Raptor, Shelby GT350 and Shelby GT350R in the growing Ford Performance lineup.
Beginning production late next year, the GT hits the road in select global markets to celebrate the 50th anniversary of Ford GT race cars placing 1-2-3 at the 1966 24 Hours of Le Mans.
The all-new GT supercar features rear-wheel drive, a mid-mounted engine, and a sleek, aerodynamic, two-door coupe body shell. It is propelled by the most powerful EcoBoost production engine ever – a next-generation twin-turbocharged EcoBoost V6 producing more than 600 horsepower.
The GT makes extensive use of lightweight materials, including carbon fiber and aluminum – enabling outstanding acceleration and handling with improved efficiency.
Ford’s commitment to and capability in delivering technologies typically offered only in elite vehicles is evident in the GT. These include advanced active aerodynamics, such as a deployable rear spoiler, and a host of material and technology innovations to help better serve the driver, such as SYNC® 3 – the latest version of Ford’s advanced connectivity system.
Few innovations provide a more wide-ranging performance and efficiency advantage than reducing weight. All factors of a vehicle’s capabilities – acceleration, handling, braking, safety, efficiency – can improve through the use of advanced, lighter materials.
The all-new GT features advanced lightweight composites, which will help serve Ford’s entire product lineup moving forward. With the broad application of structural carbon fiber elements, the GT will exhibit one of the best power-to-weight ratios of any production car.
Anchored by a carbon fiber passenger cell, the GT features aluminum front and rear subframes encapsulated in structural carbon fiber body panels. Carbon fiber is one of the world’s strongest materials for its mass – enabling an ultra-stiff foundation for chassis components, while creating a lighter overall package for increased dynamic performance and efficiency.
Based on the same race-proven engine architecture serving Ford’s IMSA Daytona Prototype endurance racing efforts, the next-generation twin-turbocharged 3.5-liter EcoBoost V6 in the GT features a wide powerband with impressive time-to-torque characteristics.
The engine demonstrates remarkable efficiency – a key attribute of its endurance racing-derived powertrain, where exceptional performance combined with efficiency is a critical competitive advantage.
Ford’s twin-turbo EcoBoost V6 raced to three wins in its first season of the IMSA TUDOR United SportsCar Championship in 2014, including a win in the prestigious 12 Hours of Sebring, along with seven podiums over more than 15,000 endurance racing miles.
The GT features an all-new, port/direct dual fuel-injection setup to improve engine response, plus a low-friction roller-finger-follower valvetrain. The twin-turbocharged EcoBoost V6 will be paired with a seven-speed dual-clutch transaxle for near-instantaneous gear changes and exceptional driver control.
The state-of-the-art chassis is suspended by an active racing-style torsion bar and pushrod suspension, with adjustable ride height. The 20-inch wheels are shod with Michelin Pilot Super Sport Cup 2 tires featuring a unique compound and structure designed specifically for the Ford GT. Multi-spoke wheels encircle carbon-ceramic brake discs at all four corners.
The narrow-profile canopy reduces frontal area and caps a purposeful interior that provides state-of-the-art technology to ensure control, comfort and safety. The two-seat cockpit is accessed by upward-swinging doors, and features driver and passenger seats integrated directly into the carbon fiber passenger cell.
This configuration significantly reduces seating hardware and weight, and provides a consistent and direct sensory connection to the chassis. The fixed seating is combined with adjustable pedals and steering column to accommodate a very wide range of driver statures.
An F1-style steering wheel integrates all necessary driver controls, creating a stalkless steering column that allows uncluttered access to the transmission paddle-shift controls. A fully digital and configurable instrument cluster provides a wealth of driver-focused data. The display is configurable for multiple driving environments and different driving modes.