Combining protective clothes with human body models for finite element ballistic impact simulations

Abstract: The ballistic deformation of an ultra-high-molecular-weight (UHMW) polyethylene (PE) composite has been subjected numerically to a multi-layered soft ballistic fabric package modelled upon the body contours of the Global Human Body Models Consortium (GHBMC) human body models M50-P and F05-P. The results of the clothing-body-interaction have been investigated and compared to the behavior of anthropomorphic surrogate models made from ballistic clay. For building the fabric model in donned shape, a single ply of … Show more

“…Several studies have investigated the impact resistance and ballistic performance of different composite materials. The results have shown that the difference in velocity and angle significantly affects the energy absorption capacity of the composites [48,49]. Additionally, the orientation of the fibers in the impact direction has been found to improve the impact energy absorption and overall mechanical response of the composites [50,51].…”

Numerical simulation of composite materials with sisal and glass fibers for ballistic impact resistance

“…Several studies have investigated the impact resistance and ballistic performance of different composite materials. The results have shown that the difference in velocity and angle significantly affects the energy absorption capacity of the composites [48,49]. Additionally, the orientation of the fibers in the impact direction has been found to improve the impact energy absorption and overall mechanical response of the composites [50,51].…”

Numerical simulation of composite materials with sisal and glass fibers for ballistic impact resistance