Effect of initial position on the human head and neck response to +Y impact acceleration

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Ewing, C. L.¹; Thomas, D. J.¹; Lustick, L.¹; Muzzy, III, W. H.¹; Willems, G. C.¹; Majewski, P.¹

Effect of initial position on the human head and neck response to +Y impact acceleration

Proceedings of the 22nd Stapp Car Crash Conference

Affiliations

¹Naval Aerospace Medical Research Laboratory Detachment, New Orleans, LA
Abstract

The response of the human head and neck to impact acceleration has been previously reported for the -X (chest to back) and +Y (right to left) directions. Wide ranges of sled peak acceleration, rate of onset of acceleration and duration of acceleration have been investigated and reported. A major mechanical effect on the dynamic response due to initial position for the -X direction has been reported. The purpose of this study is to report the initial position effect on the human head and neck response for +Y direction experiments.

Four initial positions of the head relative to the first thoracic vertebral body (T₁) have been investigated over a range of sled acceleration peaks from 2 to 7G. The data from six young adult male volunteers representative of a wide range of anthropometry will be presented. There are 18 experiments for each volunteer for a total of 108 experiments.

The effect of initial position on the resulting head angular and linear acceleration, velocity and displacement will be presented. A comparison of the initial position effect for -X and +Y direction experiments will be made. The ability to model the initial position effect will be discussed.
Links

DOI: 10.4271/780888

SAE: 780888

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