Shock induced energy transfer into a solid structure

We present an analysis of energy deposition into a hyperelastic solid induced by shock impact generated by an explosive blast. Ecoflex 00-30 is used for the solid object and the shock is generated by a finite sized charge of HMX explosive that generates a shock in air. The solid sphere shaped rubber-like material is modeled by the Neo-Hookean equation of state (EOS) while for HMX we use the Wide-Ranging EOS.The diameters of the explosive charge and the solid object are 1 and 3 inches respectably, and the distance between their centers is 16 inches. Gauges where placed on the surface and inside the sphere to measure pressure and compare numerical results to from our novel multi-material simulation code to experimental data generated by Prof. Glumac's group at University of Illinois. Both experiments and numerical simulations observed high oscillations in the sphere.