2007
DOI: 10.1063/1.2720099
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On the influence of loading profile upon the tensile failure of stainless steel

Abstract: A material placed in direct contact with a high explosive experiences a Taylor wave (triangular-shaped) shock loading profile. While a large number of studies have probed the structure, properties, and tensile response of materials subjected to square-topped shock loading pulses histories, few studies have systematically quantified the influence of shock-wave profile shape on material response. Samples of 316L stainless steel were shock loaded to peak stresses of 6.6, 10.2, and 14.5 GPa to examine the influenc… Show more

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Cited by 48 publications
(24 citation statements)
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“…Regions of coalesced voids linked by a network of shear localized plastic flow regions were observed. This mode of damage evolution in 316L SS is similar to that observed previously on wrought 316L SS [22,23]. Higher magnification imaging of the ductile voids show that most of the voids are associated with grain boundaries suggesting that boundaries are the primary void nucleation sites similar to past observations in pure copper [24].…”
Section: Post-mortem Metallurgical Analysissupporting
confidence: 73%
“…Regions of coalesced voids linked by a network of shear localized plastic flow regions were observed. This mode of damage evolution in 316L SS is similar to that observed previously on wrought 316L SS [22,23]. Higher magnification imaging of the ductile voids show that most of the voids are associated with grain boundaries suggesting that boundaries are the primary void nucleation sites similar to past observations in pure copper [24].…”
Section: Post-mortem Metallurgical Analysissupporting
confidence: 73%
“…or distribution of ejecta. Recent work in the shock compression field, however, links the shock-pulse's shape to the amount, and type, of material damage within bulk shocked material [8][9]. These results imply creation of ejecta, which is also a damage process, may be related to the shock loading profile.…”
Section: Introductionmentioning
confidence: 87%
“…Over the past five decades numerous studies have provided a wealth of experimental data and insight concerning shock hardening and the spallation response of materials subjected to square-topped shock-wave loading profiles [1][2][3]. Fewer researchers have quantified the effect of direct, in-contact, high explosive (HE)-driven Taylor wave (or triangular-wave) loading on the shock hardening, damage evolution, or spallation response of materials [4,5].…”
Section: Introductionmentioning
confidence: 99%