Classic Recreations Announces World’s First Carbon-Fiber-Bodied 1967 Ford Mustang Shelby GT500CR
Classic Recreations, the leading builder of handcrafted officially-licensed Shelby Mustangs joins forces with carbon fiber manufacturer SpeedKore to change the custom car-building.
Classic Recreations, the Oklahoma-based builder of officially-licensed Ford and Shelby American continuation cars and restorations has enlisted SpeedKore Performance Group, the Wisconsin-based carbon fiber manufacturer, to produce carbon fiber bodies for its Shelby GT500CR models. The first of its kind, the program is part of an initiative by Classic Recreations to build the next generation of modern high-performance vehicles with iconic classic American styling, followed by a Shelby-licensed all-carbon-fiber-bodied Cobra in the future.
“When we decided to build the carbon-fiber-bodied GT500CR Mustangs, we wanted to work with someone who shared our vision for the future of custom car building,” said Jason Engel, Founder and President of Classic Recreations. “Having a supplier that is equally committed to high-quality craftsmanship and producing innovative vehicles is incredibly important to us and we found that matched commitment in SpeedKore.”
Classic Recreations’ standard Shelby GT500CR starts with an original 1967 (or 1968) Mustang body that is restored to like-new condition using hundreds of man-hours of labor. The carbon fiber GT500CR also begins with a restored donor steel tub that is then fitted with all-new carbon fiber body panels. Starting with a 3D digital model produced from SpeedKore’s blue light scan of an entire GT500CR body, a five-axis CNC machine cuts the molds, and then plugs and panels are pulled using aerospace-grade prepreg carbon fiber. The molded carbon fiber body panels are cured using a massive in-house autoclave. The result is the world’s first officially-licensed Shelby Mustang that is lighter and stronger than an all-steel body and has perfect carbon fiber weave alignment. The precisely manufactured, hypercar-quality carbon fiber bodies can be produced efficiently to exacting specifications.