Shock wave propagation, plasticity, and void collapse in open-cell nanoporous Ta

Tang, J. F.; Xiao, J. C.; Deng, L.; Li, W.; Zhang, X. M.; Wang, L.; Xiao, S. F.; Deng, H. Q.; Hu, W. Y.

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Royal Society of Chemistry, Physical Chemistry Chemical Physics, 44(20), p. 28039-28048, 2018

DOI: 10.1039/c8cp05126g

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Shock wave propagation, plasticity, and void collapse in open-cell nanoporous Ta

Journal article published in 2018 by J. F. Tang, J. C. Xiao, L. Deng

, W. Li

, X. M. Zhang, L. Wang

, S. F. Xiao

, H. Q. Deng

, W. Y. Hu

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Abstract

We systematically investigate the wave propagation, plasticity and void collapse, as well as the effects of porosity, specific surface area and impact velocity, in a set of open-cell nanoporous Ta, during shock compression,viaperforming large-scale non-equilibrium molecular dynamics simulations.

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Shock wave propagation, plasticity, and void collapse in open-cell nanoporous Ta

Abstract