FlexSys Press Release - Aston Martin incorporates FlexSys Technology

 
AMRB003.jpg
 

Ann Arbor, MI – March 5, 2019

Aerospace technology company FlexSys Inc. has joined forces with Aston Martin to apply their advanced FlexFoil™ technology to Aston Martin’s latest ultra-high-performance vehicle. On March 5, 2019, Aston Martin announced that the rear wing of their new AM-RB 003 hypercar will incorporate FlexFoil™ shape adaptive wing technology.

FlexSys Inc. has worked with Aston Martin over the past several years to develop technologies ranging from the AM-RB 003 morphing wing, to the Valkyrie windshield wiper system that enables rain clearance throughout the entire sweep of an extremely complex windscreen.  David Hornick, President and COO of FlexSys Inc. describes Aston Martin as being “laser focused from the start of our relationship, on achieving technical perfection in performance car systems and aerodynamics”.   

The shape adaptive rear wing on the AM-RB 003 allows for the car’s downforce to be changed without changing the mounting position of the wing, resulting in a seamless design with high performance, improved efficiency and reduced wind noise. In addition, the turbulence and associated drag increase found in current “state of the art” active wing designs is virtually eliminated.

FlexSys, a Michigan based company, has been developing advanced aircraft wing technologies with the United States Air Force Research Laboratories for the past 18 years and has validated the fuel savings and noise reduction benefits of its seamless shape adaptive wings through extensive NASA flight testing on a modern aircraft. The patented technology involves variable-geometry control surface mechanisms that exploit the inherent flexibility of aerospace materials to continuously reshape wing profiles for optimal performance throughout the flight.  

About FlexSys, Inc.

FlexSys Inc., an Ann Arbor Michigan based company, was founded in 2000 by Dr. Sridhar Kota to develop and commercialize his patented design of a shape-morphing adaptive control surface of an airfoil. As a professor of Mechanical Engineering at the University of Michigan (1987-present), Dr. Kota initiated research in compliant mechanisms in the 1990s and pioneered the bio-inspired concept of Distributed Compliance for designing strong and flexible one-piece machines. FlexSys developed proprietary software for creation and optimization of compliant systems and successfully demonstrated the application of compliant design methods for aerospace, automotive and other applications over the years. Today, FlexSys is an established world leader in shape-adaptive structures. 

For more information please contact David Hornick, President, FlexSys Inc. via email: dhornick@flxsys.com or via phone: (734) 527-7034. www.flxsys.com