Numerical evaluation of the feasibility of a novel ballistic helmet concept

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Résumé

The main goal of this research is to create a new ballistic helmet concept able to defeat high velocity rifle bullets, specifically the 7.62 x 39 M43 round. The current design consists of four layers, where the first layer is responsible for the deformation and breaking up of the projectile, the second layer for stopping the projectile, the third layer for reducing the back face deformation, and the fourth and last layer for absorbing the shock wave send into the helmet shell, next to the back face deflection of the latter. Whereas previous research gave possible solutions for the first three layers, this work focuses on the feasibility of the fourth, shock-Absorbing layer. A finite element model approach was used to see the influence of the shock-Absorbing layer on the risk on behind-helmet blunt trauma and to determine a suitable standoff based on a maximum force injury criterion.

langue originaleAnglais
titreProceedings - 30th International Symposium on Ballistics, BALLISTICS 2017
rédacteurs en chefSidney Chocron, James D. Walker
EditeurDEStech Publications Inc.
Pages2156-2165
Nombre de pages10
ISBN (Electronique)9781605954196
Les DOIs
étatPublié - 2017
Evénement30th International Symposium on Ballistics, BALLISTICS 2017 - Long Beach, États-Unis
Durée: 11 sept. 201715 sept. 2017

Série de publications

NomProceedings - 30th International Symposium on Ballistics, BALLISTICS 2017
Volume2

Une conférence

Une conférence30th International Symposium on Ballistics, BALLISTICS 2017
Pays/TerritoireÉtats-Unis
La villeLong Beach
période11/09/1715/09/17

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