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This paper covers the development of the General Motors Energy Absorbing Steering System beginning with the work of the early crash injury pioneers Hugh DeHaven and Colonel John P. Stapp through developments and introduction of the General Motors energy absorbing steering system in 1966. evaluations of crash performance of the system, and further improvement in protective function of the steering assembly. The contributions of GM Research Laboratories are highlighted, including its safety research program. Safety Car, Invertube, the biomechanic projects at Wayne State University, and the thoracic and abdominal tolerance studies that lead to the development of the Viscous Injury Criterion and self-aligning steering wheel.

For several decades, there has been a debate on the safety merits of yielding and rigidized (stiff) seats. In 1995, GM adopted requirements for high retention seats and introduced a new generation of yielding seatbacks. These seats have the same stiffness as the yielding seats of the 1980s and early 1990s, but have a strong frame structure and recliners to substantially limit seatback rotation in severe rear crashes. The yielding behavior is given by compliance of the seat suspension across the side structures and an open perimeter frame, which allows the occupant to penetrate into the seatback. The purpose of this study is to compare the energy transfer characteristics and occupant dynamics of yielding and stiff seats in 35 km/h and 16 km/h rear crashes. Based on benchmarking tests, the stiff seatback is defined as one having a 40 kN/m stiffness in rearward loading by a Hybrid dummy.