Shock response of dry sand. | Zendy

William D. Reinhart | Zendy; L.C. Chhabildas | Zendy; Tracy Vogler | Zendy; Justin Brown | Zendy

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Shock response of dry sand.

Author(s) -

William D. Reinhart,

L.C. Chhabildas,

Tracy Vogler,

Justin Brown

Publication year - 2007

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/913227

Subject(s) - compaction , shock (circulatory) , shock wave , mechanics , porosity , physics , lambda , materials science , interferometry , optics , composite material , medicine

The dynamic compaction of sand was investigated experimentally and computationally to stresses of 1.8 GPa. Experiments have been performed in the powder's partial compaction regime at impact velocities of approximately 0.25, 0.5, and 0.75 km/s. The experiments utilized multiple velocity interferometry probes on the rear surface of a stepped target for an accurate measurement of shock velocity, and an impedance matching technique was used to deduce the shock Hugoniot state. Wave profiles were further examined for estimates of reshock states. Experimental results were used to fit parameters to the P-Lambda model for porous materials. For simple 1-D simulations, the P-Lambda model seems to capture some of the physics behind the compaction process very well, typically predicting the Hugoniot state to within 3%

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