High strain rate response of an elastomer

Abstract

Plate impact experiments have been performed to examine the high strain rate response of an elastomer (explosive binder) shocked to 8 kbar stress. Particle velocity data have been obtained using in-material electromagnetic velocity gauges. Normal impact experiments have provided compression and release wave velocities and stress-strain results; ramp wave experiments indicate that the elastomer response is independent of loading rate; inclined plate impact measurements show that the material does not support any shear even at these strain rates. Additionally, numerical simulations have been performed to show that shock propagation in viscous fluids canbe simulated without artificial viscosity but by using the material viscosity in the constitutive relations. Such simulations will be useful in obtaining material viscosities from the measured wave profiles.