Sensitivity of hypervelocity impact simulations to equation of State

This study focuses on the simulation of hypervelocity impact problems with different equations of state (EOSs). We used a high-order multi-material Godunov method in Eulerian form and applied an ''exact'' multi-material Riemann solver to find more accurate individual phase advection fluxes regardles

Polyvinylidene fluoride (PVDF) films have been utilized as interplanetary dust detectors for many years in a variety of space environments. PVDF serves as a dust detector by producing a 'depolarization' charge upon hypervelocity impact. Previous instruments have relied on empirical calibrations to e

AbstractmA series of hypervelocity impact tests are conducted against thin-wailed aluminum pressure vessels to investigate failure mechanisms. The vessels, 0.05 and 0.08 inches thick, are constructed to replicate the material properties of the International Space Station (ISS). The vessels are press

Presented are several a!gorlth~s that allow a Lagrang!an hydrodynamic computer code to simulate hyperveloclty impact. Such impacts typically involve very large material deformations and ordinarily can be handled only by Eulerlan codes, in which the materials flow through a stationary grid. In Lagr

SPH (Smooth Particle Hydrodynamics) is a relatively new gridless Lagrangian numerical technique which offers advantages over more established grid based Lagrange and Euler methods. An SPH capability implemented into the AUTODYN-2D software has been used to simulate hypervelocity impacts on thin Whip