Cyclic Plastic Deformation at Low Temperature in Liquid Nitrogen and Room Temperature Subsequent to Pre-Strain at Low Temperature in Liquid Nitrogen and Room Temperature

Cyclic loading tests are performed by using thin-walled tubular specimens of SUS304 stainless steel at low temperature in liquid nitrogen (77K) and room temperature. Cyclic plastic deformation subsequent to pre-strain at 77K and room temperature is experimentally investigated under torsional, tensil...

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Veröffentlicht in:	Journal of the Society of Materials Science, Japan Japan, 1999/01/15, Vol.48(1), pp.38-43
Hauptverfasser:	YOKOTSUKA, Tomohito, IKEGAMI, Kozo
Format:	Artikel
Sprache:	eng ; jpn
Schlagworte:	Cyclic loading Low cycle deformation Material testing Plasticity Pre-strain
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container_title	Journal of the Society of Materials Science, Japan
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creator	YOKOTSUKA, Tomohito IKEGAMI, Kozo
description	Cyclic loading tests are performed by using thin-walled tubular specimens of SUS304 stainless steel at low temperature in liquid nitrogen (77K) and room temperature. Cyclic plastic deformation subsequent to pre-strain at 77K and room temperature is experimentally investigated under torsional, tensile and compressive loading conditions. At small cyclic numbers, the pre-strain perpendicular to cyclic loading direction results in large hardening, and cyclic plastic behavior subsequent to the pre-strain at 77K is more hardened than the pre-strain at room temperature. With increasing cyclic number, the effect of temperature on the hardening behavior becomes small. When the cyclic loadings are conducted in the same direction as the pre-straining direction, the effect of the pre-strain on hardening behavior is not remarkable at room temperature and 77K. The pre-strain at 77K influences the cyclic hardening at room temperature even for large cyclic number.
doi_str_mv	10.2472/jsms.48.38
format	Article
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Cyclic plastic deformation subsequent to pre-strain at 77K and room temperature is experimentally investigated under torsional, tensile and compressive loading conditions. At small cyclic numbers, the pre-strain perpendicular to cyclic loading direction results in large hardening, and cyclic plastic behavior subsequent to the pre-strain at 77K is more hardened than the pre-strain at room temperature. With increasing cyclic number, the effect of temperature on the hardening behavior becomes small. When the cyclic loadings are conducted in the same direction as the pre-straining direction, the effect of the pre-strain on hardening behavior is not remarkable at room temperature and 77K. 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Soc. Mat. Sci., Japan</addtitle><description>Cyclic loading tests are performed by using thin-walled tubular specimens of SUS304 stainless steel at low temperature in liquid nitrogen (77K) and room temperature. Cyclic plastic deformation subsequent to pre-strain at 77K and room temperature is experimentally investigated under torsional, tensile and compressive loading conditions. At small cyclic numbers, the pre-strain perpendicular to cyclic loading direction results in large hardening, and cyclic plastic behavior subsequent to the pre-strain at 77K is more hardened than the pre-strain at room temperature. With increasing cyclic number, the effect of temperature on the hardening behavior becomes small. When the cyclic loadings are conducted in the same direction as the pre-straining direction, the effect of the pre-strain on hardening behavior is not remarkable at room temperature and 77K. 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Soc. Mat. Sci., Japan</addtitle><date>1999</date><risdate>1999</risdate><volume>48</volume><issue>1</issue><spage>38</spage><epage>43</epage><pages>38-43</pages><issn>0514-5163</issn><eissn>1880-7488</eissn><abstract>Cyclic loading tests are performed by using thin-walled tubular specimens of SUS304 stainless steel at low temperature in liquid nitrogen (77K) and room temperature. Cyclic plastic deformation subsequent to pre-strain at 77K and room temperature is experimentally investigated under torsional, tensile and compressive loading conditions. At small cyclic numbers, the pre-strain perpendicular to cyclic loading direction results in large hardening, and cyclic plastic behavior subsequent to the pre-strain at 77K is more hardened than the pre-strain at room temperature. With increasing cyclic number, the effect of temperature on the hardening behavior becomes small. When the cyclic loadings are conducted in the same direction as the pre-straining direction, the effect of the pre-strain on hardening behavior is not remarkable at room temperature and 77K. The pre-strain at 77K influences the cyclic hardening at room temperature even for large cyclic number.</abstract><pub>The Society of Materials Science, Japan</pub><doi>10.2472/jsms.48.38</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record>
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language	eng ; jpn
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source	J-STAGE (Japan Science & Technology Information Aggregator, Electronic) Freely Available Titles - Japanese
subjects	Cyclic loading Low cycle deformation Material testing Plasticity Pre-strain
title	Cyclic Plastic Deformation at Low Temperature in Liquid Nitrogen and Room Temperature Subsequent to Pre-Strain at Low Temperature in Liquid Nitrogen and Room Temperature
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