2017
DOI: 10.1007/s40870-017-0113-7
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Experimental and Computational Damage and Ejecta Studies of Pb Explosively Shock Loaded to $$P_{SL} \approx 32$$ P S L ≈ 32 - to 40-GPa

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Cited by 12 publications
(1 citation statement)
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“…By contrast, the originally proposed method to quantitatively estimate strength used the total integrated spike growth as the experimental metric, but that method was based on calculations for a general RMI configuration with a perturbed interface between two materials [18]. In our more limiting case with perturbations on the free surface, local interactions of release waves from the perturbed surface eventually result in tensile stresses leading to damage in the form of porosity for a ductile metal [38,39]. In previous work, it was demonstrated that the peak spike velocity occurred early enough to be unaffected by porosity, and it still has excellent sensitivity to strength; hence it makes an ideal metric [22].…”
Section: Analysis Approach and Modelingmentioning
confidence: 99%
“…By contrast, the originally proposed method to quantitatively estimate strength used the total integrated spike growth as the experimental metric, but that method was based on calculations for a general RMI configuration with a perturbed interface between two materials [18]. In our more limiting case with perturbations on the free surface, local interactions of release waves from the perturbed surface eventually result in tensile stresses leading to damage in the form of porosity for a ductile metal [38,39]. In previous work, it was demonstrated that the peak spike velocity occurred early enough to be unaffected by porosity, and it still has excellent sensitivity to strength; hence it makes an ideal metric [22].…”
Section: Analysis Approach and Modelingmentioning
confidence: 99%