Citation

Van Den Kroonenberg A, Thunnissen J, Wismans J. Proc. IRCOBI 1997; 25: 117-132.

Copyright

(Copyright © 1997, International Research Council on Biomechanics of Injury)

DOI

unavailable

PMID

unavailable

Abstract

The objective of this study is to develop a mathematical model of a seated occupant, and to better understand the biomechanical response of the spine and the occupant's interaction with the seat during rear-end collisions. For this purpose, a three-dimensional (3D) mathematical model of a 50th percentile sitting adult male is developed for use in simulations of rear impacts. Special attention is paid to the modeling of the spine, including the neck, and the occupant's interaction with the seat. To obtain insight into its biofidelity, the model's response is compared with rear-end sled tests with volunteers and human cadavers at a delta V (velocity change) of up to 30 km/hr. The model is then used to study and quantify the motion of the spine in low and medium severity rear-end collisions. The study revealed that, during the "torso loading phase", the pelvis was lifted from the seat while the vertical motion of the T1 vertebral body relative to the vehicle was slight. Spinal compression occurred during this phase, but it remained slight. Although a thorough validation of the model developed was not possible due to lack of experimental data, it can be concluded that the model has the potential to become a powerful tool for parametric studies to aid in a seat design process.