Ford Mustang Shelby GT500 Convertible (2011)

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Ford Mustang Shelby GT500 Convertible

Ford's Special Vehicle Team (SVT) engineers are taking high performance to a new level with the 2011 Ford Mustang Shelby GT500, resulting in a car that has an all-new aluminum-block engine, even better driving dynamics and handling, improved fuel economy and more horsepower than ever.

"The SVT team continues to push the performance standards of the Shelby to even higher levels and better refinement," said Jost Capito, director of global performance vehicles and motorsports business development. "All the changes we made reflect a desire for even better handling and outstanding driving dynamics - from weight savings to improved balance."

Weight savings, new technology headline all-new aluminum engine

The 2011 Ford Mustang Shelby GT500 is powered by an all-new aluminum-block 5.4-liter supercharged V-8 engine, which produces 550 horsepower and 510 ft.-lb. of torque, a 10 horsepower increase versus the 2010 model. The engine also is 102 pounds lighter than its predecessor, delivering a better power-to-weight ratio, improved fuel economy, acceleration, handling and steering precision.

2011 Ford Mustang Shellby GT500

"Cutting weight to improve performance is a tradition among hot rodders," said Carroll Shelby, founder of Shelby American. "It might not be as sexy as adding more horsepower or bigger brakes, but shaving pounds off of a car is the single smartest move you can make." 


The new engine uses state-of-the-art Plasma Transferred Wire Arc (PTWA) liner coating, a process that applies a 150-micron composite coating that contains nanoparticles on the internal surfaces of engine cylinder bores, replacing cast-iron liners typically used in aluminum engine blocks. The Intellectual Property Owners Education Foundation honored the inventors of the Ford-patented PTWA technology with the 2009 National Inventor of the Year Award.

This is the first Ford application of the technology, and it offers improved overall performance and durability, along with functional benefits of reduced friction between piston rings and cylinder bores, improved heat transfer due to increased surface contact area and a weight savings of 8.5 pounds compared to a typical steel-sleeved aluminum block. A mechanical roughening process provides higher material adhesion for the spray coating.

The PTWA process uses air and electricity to create a plasma jet of 35,000 degrees Fahrenheit, which melts a steel wire that is fed into a rotating spray gun. Using atomized air, the melted steel wire is blown into a specially machined surface of the aluminum-block engine cylinder bore. In the process of melting and applying the metal to the surface, the steel wire oxidizes, creating a composite coating consisting of both iron and iron oxide.

"Ford's Global Research and Advanced Engineering looks to all industries for advanced technologies - and this comes from aerospace. It's the same technology you would find on aircraft engines," said Glenn Jorgensen, SVT powertrain team leader. "We've invented a coating as a replacement for cast iron that delivers improvements in power and performance and fuel economy."

The new engine also has its roots in the iconic Ford GT. The new 5.4-liter engine is an evolution of the GT engine, with improved block structure through the use of a unique bulkhead chilled process and six-bolt billet main bearing caps. This new advanced engine will exceed Ford GT performance with its traditional supercharger technology.

"The Ford GT has solidified itself as one of the world's most coveted supercars. To make improvements to the engine from this supercar and make it available in a Mustang is impressive," said Kerry Baldori, SVT global performance vehicle chief functional engineer. "The aluminum-block engine is robust and strong enough to produce the performance numbers and durability our customers demand."