Accident studies indicate that serious neck injuries are generally infrequent in side crashes. However, given the rapid changes in side impact protection technology, such as side airbags and curtain systems, the nature of head-neck interactions is likely to change. Consequently, the newest generation of anthropomorphic test devices for side impact should provide realistic prediction of the head-neck kinematics and include meaningful measurements related to risk of head and neck injury. The paper reports on the findings of the assessment of the WorldSID pre-production dummy. The Mertz and Patrick OC moment-head angle corridor is used as supplemental requirement for frontal flexion-extension. The biofidelity requirements contain both kinematic and dynamic response targets. The neck has a good performance for NBDL lateral and Tarriere requirements, and the Mertz OC moment-flexion angle. The performance for the Patrick and Chou, the NBDL oblique test conditions and the Mertz OC moment extension angle are fair to marginal. The repeatability performance of the dummy was found to be good for all lateral and most oblique test parameters. The neck design does not allow much more further optimization without fundamental changes. (Author/publisher)
Abstract