Article: Finite element analysis of occupant head and neck injury mechanism during rollover crashes Journal: International Journal of Vehicle Design (IJVD) 2010 Vol.54 No.3 pp.238 - 261 Abstract: A set of state-of-the-art Finite Element (FE) vehicle restraint system, crash dummy and whole body human models was integrated and validated against several quasi-static and dynamic rollover tests. HIII dummy responses during three selected trip-over scenarios were simulated using an FE vehicle model equipped with four different hypothetical roof stiffness values. Results indicated that both previous hypotheses on rollover injury mechanism, i.e. |diving mechanism| and |roof crush mechanism|, are flawed. The results supported that |diving| is the major injury mechanism in rollovers, but |roof stiffness| (not |roof crush|) affects the head and neck injury risks for far-side occupants during |diving| type of impacts. Traditional |diving mechanism| neglected the fact that roof stiffness can change the vehicle and occupant kinematics in rollovers, and consequently affected the occupant injury risks. More rollover tests using both the dummy and the cadaver are needed to further validate the hypothesis proposed in this study. Inderscience Publishers - linking academia, business and industry through research

Title: Finite element analysis of occupant head and neck injury mechanism during rollover crashes

Authors: Jingwen Hu, Chunsheng Ma, Clifford C. Chou, King H. Yang

Addresses: University of Michigan Transportation Research Institute, 2901 Baxter Rd, Ann Arbor, MI 48109, USA. ' State Key Laboratory of Automotive Safety and Energy, Tsinghua University, Beijing, 100084, China. ' Bioengineering Center, Wayne State University, 818 W. Hancock St, Detroit, MI, 48201, USA. ' Bioengineering Center, Wayne State University, 818 W. Hancock St, Detroit, MI, 48201, USA

Abstract: A set of state-of-the-art Finite Element (FE) vehicle restraint system, crash dummy and whole body human models was integrated and validated against several quasi-static and dynamic rollover tests. HIII dummy responses during three selected trip-over scenarios were simulated using an FE vehicle model equipped with four different hypothetical roof stiffness values. Results indicated that both previous hypotheses on rollover injury mechanism, i.e. |diving mechanism| and |roof crush mechanism|, are flawed. The results supported that |diving| is the major injury mechanism in rollovers, but |roof stiffness| (not |roof crush|) affects the head and neck injury risks for far-side occupants during |diving| type of impacts. Traditional |diving mechanism| neglected the fact that roof stiffness can change the vehicle and occupant kinematics in rollovers, and consequently affected the occupant injury risks. More rollover tests using both the dummy and the cadaver are needed to further validate the hypothesis proposed in this study.

Keywords: finite element analysis; FEA; vehicle rollover; vehicle crashes; injury mechanisms; injury risk; head injury; neck injury; vehicle restraint systems; crash dummies; whole body human models; rollover tests; simulation; roof stiffness; vehicle design; vehicle safety; occupant kinematics; vehicle kinematics; impact.

DOI: 10.1504/IJVD.2010.036129

International Journal of Vehicle Design, 2010 Vol.54 No.3, pp.238 - 261

Received: 17 Mar 2010
Accepted: 15 May 2010
Published online: 22 Oct 2010 *

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Title: Finite element analysis of occupant head and neck injury mechanism during rollover crashes

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