Intense shock compression of porous solids: Application to wc and ta2O5

The intense shock states achievable within granular or porous solids can be quantified through the application of continuum thermodynamic models. Here emphasis is on distended and granular solids for the purpose of calculating compression paths. In the present paper thermo-physical relations are developed and applied to the shock compression of aerogels and powders. These materials were selected because of previous studies available in the literature and recent high-pressure test results obtained at the Sandia National Laboratories Z-Machine. The relations developed herein have been implemented in the Sandia Laboratories CTH code, specifically within a newly modified version of the P-γ equation of state. Analytic equations of state similar to P-γ are usually considered inefficient for hydrocode computation because of the many subcycle calculations needed to determine the pressure. However, the main advantage of this newly modified EOS is it allows for the easy creation of novel heterogeneous mixture model...