Isolation of kinetic and spatial properties of uni-axial dynamic tensile loading of OFHC copper

Isolation of kinetic and spatial properties of uni-axial dynamic tensile loading of OFHC copper

Materials performance is recognized as being central to many emergent technologies. Future technologies will place increasing demands on materials performance with respect to extremes in stress, strain, temperature, and pressure. In this study, the dynamic ductile damage evolution of OFHC Cu is expl...

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Main Authors: Mourad H., Lebensohn R., Hansen B., Bronkhorst C.A., Cerreta E.K., Escobedo-Diaz J.P., Dennis-Koller D., Patterson B., Tonks D.
Format: Article
Language:English
Published: EDP Sciences 2012-08-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/20122601040
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spelling doaj-223b8ae156e44eaf85c7f6376261cfd02021-08-02T10:28:45ZengEDP SciencesEPJ Web of Conferences2100-014X2012-08-01260104010.1051/epjconf/20122601040Isolation of kinetic and spatial properties of uni-axial dynamic tensile loading of OFHC copperMourad H.Lebensohn R.Hansen B.Bronkhorst C.A.Cerreta E.K.Escobedo-Diaz J.P.Dennis-Koller D.Patterson B.Tonks D.Materials performance is recognized as being central to many emergent technologies. Future technologies will place increasing demands on materials performance with respect to extremes in stress, strain, temperature, and pressure. In this study, the dynamic ductile damage evolution of OFHC Cu is explored as a test bed to understand the role of spatial effects due to loading profile and defect density as well as the role of the kinetics of tensile pulse evolution. Well-characterized OFHC Cu samples of 30 μm, 60 μm, 100 μm, and 200 μm grain sizes were subjected to plate impact uniaxial strain loading in spall geometry to produce early stage (incipient damage. Using 2D metallographic techniques, soft recovered samples were studied to statistically link mesoscale processes to continuum level observations of free surface particle velocity measured with VISAR. Based on these findings, mechanisms for the void nucleation/growth and coalescence are proposed. http://dx.doi.org/10.1051/epjconf/20122601040
collection DOAJ
language English
format Article
sources DOAJ
author Mourad H.
Lebensohn R.
Hansen B.
Bronkhorst C.A.
Cerreta E.K.
Escobedo-Diaz J.P.
Dennis-Koller D.
Patterson B.
Tonks D.
spellingShingle Mourad H.
Lebensohn R.
Hansen B.
Bronkhorst C.A.
Cerreta E.K.
Escobedo-Diaz J.P.
Dennis-Koller D.
Patterson B.
Tonks D.
Isolation of kinetic and spatial properties of uni-axial dynamic tensile loading of OFHC copper
EPJ Web of Conferences
author_facet Mourad H.
Lebensohn R.
Hansen B.
Bronkhorst C.A.
Cerreta E.K.
Escobedo-Diaz J.P.
Dennis-Koller D.
Patterson B.
Tonks D.
author_sort Mourad H.
title Isolation of kinetic and spatial properties of uni-axial dynamic tensile loading of OFHC copper
title_short Isolation of kinetic and spatial properties of uni-axial dynamic tensile loading of OFHC copper
title_full Isolation of kinetic and spatial properties of uni-axial dynamic tensile loading of OFHC copper
title_fullStr Isolation of kinetic and spatial properties of uni-axial dynamic tensile loading of OFHC copper
title_full_unstemmed Isolation of kinetic and spatial properties of uni-axial dynamic tensile loading of OFHC copper
title_sort isolation of kinetic and spatial properties of uni-axial dynamic tensile loading of ofhc copper
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2012-08-01
description Materials performance is recognized as being central to many emergent technologies. Future technologies will place increasing demands on materials performance with respect to extremes in stress, strain, temperature, and pressure. In this study, the dynamic ductile damage evolution of OFHC Cu is explored as a test bed to understand the role of spatial effects due to loading profile and defect density as well as the role of the kinetics of tensile pulse evolution. Well-characterized OFHC Cu samples of 30 μm, 60 μm, 100 μm, and 200 μm grain sizes were subjected to plate impact uniaxial strain loading in spall geometry to produce early stage (incipient damage. Using 2D metallographic techniques, soft recovered samples were studied to statistically link mesoscale processes to continuum level observations of free surface particle velocity measured with VISAR. Based on these findings, mechanisms for the void nucleation/growth and coalescence are proposed.
url http://dx.doi.org/10.1051/epjconf/20122601040
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AT lebensohnr isolationofkineticandspatialpropertiesofuniaxialdynamictensileloadingofofhccopper
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