A modeling technique was developed to simulate the door/occupant interaction in the Federal Motor Vehicle Safety Standard (FMVSS) 214 test. The door components, including all the panels and the side airbag, were modeled by finite elements (FE's). The Side Impact Dummy (SID) was modeled by rigid segments with FE contact surfaces. The DYNA three-dimensional (3D) FE code and the CAL3D lumped-mass code were coupled together such that features in each program can be utilized in this modeling approach. A numerical scheme was developed to simulate the door crush due to the barrier impact to obtain the proper door interior stiffness. Material constants for the model were derived from the available test data. The model exhibited good from the available test data. The model exhibited good correlation with the barrier test data for the dummy acceleration response. Using this model, potential countermeasures, including thorax padding, an armrest design, and a side airbag, were evaluated. Simulation results suggested that a combination of a crushable armrest and a thorax airbag can reduce the Thoracic Trauma Index (TTI) and the pelvis G. (A)
Abstract