Analysis of shockless dynamic compression data on solids to multi-megabar pressures: Application to tantalum

Analysis of shockless dynamic compression data on solids to multi-megabar pressures: Application to tantalum

Magnetically-driven, planar shockless-compression experiments to multi-megabar pressures were performed on tantalum samples using a stripline target geometry. Free-surface velocity waveforms were measured in 15 cases; nine of these in a dual-sample configuration with two samples of different thickne...

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Veröffentlicht in:Journal of applied physics 2014-11, Vol.116 (20)
Hauptverfasser: Davis, Jean-Paul, Brown, Justin L., Knudson, Marcus D., Lemke, Raymond W.
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Sprache:eng
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aluminum
Applied physics
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
Configurations
Data compression
Electrodes
Equations of state
Isentrope
materials analysis
Reflected waves
Stresses
Tantalum
velocity measurement
Wave interaction
Waveforms
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creator Davis, Jean-Paul
Brown, Justin L.
Knudson, Marcus D.
Lemke, Raymond W.
description Magnetically-driven, planar shockless-compression experiments to multi-megabar pressures were performed on tantalum samples using a stripline target geometry. Free-surface velocity waveforms were measured in 15 cases; nine of these in a dual-sample configuration with two samples of different thicknesses on opposing electrodes, and six in a single-sample configuration with a bare electrode opposite the sample. Details are given on the application of inverse Lagrangian analysis (ILA) to these data, including potential sources of error. The most significant source of systematic error, particularly for single-sample experiments, was found to arise from the pulse-shape dependent free-surface reflected wave interactions with the deviatoric-stress response of tantalum. This could cause local, possibly temporary, unloading of material from a ramp compressed state, and thus multi-value response in wave speed that invalidates the free-surface to in-material velocity mapping step of ILA. By averaging all 15 data sets, a final result for the principal quasi-isentrope of tantalum in stress-strain was obtained to a peak longitudinal stress of 330 GPa with conservative uncertainty bounds of ±4.5% in stress. The result agrees well with a tabular equation of state developed at Los Alamos National Laboratory.
doi_str_mv 10.1063/1.4902863
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This could cause local, possibly temporary, unloading of material from a ramp compressed state, and thus multi-value response in wave speed that invalidates the free-surface to in-material velocity mapping step of ILA. By averaging all 15 data sets, a final result for the principal quasi-isentrope of tantalum in stress-strain was obtained to a peak longitudinal stress of 330 GPa with conservative uncertainty bounds of ±4.5% in stress. 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subjects aluminum
Applied physics
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
Configurations
Data compression
Electrodes
Equations of state
Isentrope
materials analysis
Reflected waves
Stresses
Tantalum
velocity measurement
Wave interaction
Waveforms
title Analysis of shockless dynamic compression data on solids to multi-megabar pressures: Application to tantalum
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