1. INVESTIGATION ON THE KNEE STIFFNESS UNDER THE LATERAL IMPACT FOR THE DESIGN OF PEDESTRIAN LEGFORM IMPACTOR.
- Author
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MO, FUHAO, ARNOUX, PIERRE JEAN, KONG, CHUNYU, MASSON, CATHERINE, MASSENZIO, MICHEL, and RONEL, SYLVIE
- Subjects
STIFFNESS (Mechanics) ,KNEE physiology ,PEDESTRIANS ,FINITE element method ,REGRESSION analysis - Abstract
The objective of the present study is to investigate the stiffness of the knee joint, in order to provide a basis for developing a biofidelic pedestrian legform impactor. A biofidelic lower limb model was employed to replicate structural responses of the human knee joint by finite element simulations. In the simulation, a single displacement was imposed on the thigh or leg, and constrained six freedoms of the other part. As a result, nonlinear load-displacement data were approximated by a linear regression to determine the stiffness. Considering knee joint kinematics under lateral car-pedestrian impacts, a stiffness matrix was established including lateral bending, lateral shearing and torsion effects that significantly influence pedestrian lower limb injuries. Then, this stiffness matrix was applied in a developed legform model. The structural responses of the legform were obtained by the impact with a family car model. Finally, the legform biofidelity was evaluated by comparing the global kinematics of the pedestrian lower limb. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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