Flow Stress of V, Mo, Ta, and W on Nanosecond Time Scales

The mechanisms and kinetics of plastic flow in body-centered cubic materials are of current interest in the development of fundamental theories of dynamic strength, applicable at high strain rates such as are found in high explosive and laser loading. We have performed dynamic loading experiments wi...

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Hauptverfasser:	Swift, D C, Hawreliak, J A, El-Dasher, B S, McNaney, J M, Milathianaki, D, Lorenzana, H E, Kumar, M, Remington, B A, Tierney, T E
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	CHEMICAL EXPLOSIVES COMPRESSION CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY DIFFRACTION FLOW STRESS KINETICS LASERS PLASTICS STRAIN RATE STRAINS VELOCITY X-RAY DIFFRACTION
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creator	Swift, D C Hawreliak, J A El-Dasher, B S McNaney, J M Milathianaki, D Lorenzana, H E Kumar, M Remington, B A Tierney, T E
description	The mechanisms and kinetics of plastic flow in body-centered cubic materials are of current interest in the development of fundamental theories of dynamic strength, applicable at high strain rates such as are found in high explosive and laser loading. We have performed dynamic loading experiments with the Janus and Trident lasers, using tailored pulse shapes to induce shock or ramp loading. The response of the sample was investigated through the surface velocity history, and in some cases with in-situ x-ray diffraction. The velocity histories exhibited clear elastic waves, from which the flow stress was deduced and compared with the elastic strain as determined by diffraction. We compare the deduced flow stress with models calibrated to samples millimeters thick, and to theoretical studies.
doi_str_mv	10.1063/1.3294982
format	Conference Proceeding
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(LLNL), Livermore, CA (United States)</creatorcontrib><title>Flow Stress of V, Mo, Ta, and W on Nanosecond Time Scales</title><description>The mechanisms and kinetics of plastic flow in body-centered cubic materials are of current interest in the development of fundamental theories of dynamic strength, applicable at high strain rates such as are found in high explosive and laser loading. We have performed dynamic loading experiments with the Janus and Trident lasers, using tailored pulse shapes to induce shock or ramp loading. The response of the sample was investigated through the surface velocity history, and in some cases with in-situ x-ray diffraction. The velocity histories exhibited clear elastic waves, from which the flow stress was deduced and compared with the elastic strain as determined by diffraction. 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subjects	CHEMICAL EXPLOSIVES COMPRESSION CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY DIFFRACTION FLOW STRESS KINETICS LASERS PLASTICS STRAIN RATE STRAINS VELOCITY X-RAY DIFFRACTION
title	Flow Stress of V, Mo, Ta, and W on Nanosecond Time Scales
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