The deformation-induced martensite and dynamic strain aging during cyclic deformation in AISI 321

To investigate the deformation-induced martensite and dynamic strain aging (DSA) during cyclic deformation in AISI 321, fatigue tests were carried out at strain amplitude 0.5% and 0.9% at room temperature (RT), 550 °C and 650 °C. Optical microscope and scanning electron microscope were used to obser...

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Veröffentlicht in:	Materials research express 2019-02, Vol.6 (2), p.26530
Hauptverfasser:	She, Meng, Liu, Xiaoshan, He, Guoqiu
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Sprache:	eng
Schlagworte:	cyclic deformation deformation-induced martensite dynamic strain aging
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description	To investigate the deformation-induced martensite and dynamic strain aging (DSA) during cyclic deformation in AISI 321, fatigue tests were carried out at strain amplitude 0.5% and 0.9% at room temperature (RT), 550 °C and 650 °C. Optical microscope and scanning electron microscope were used to observe the crystal grains and fracture surface microstructure respectively; x-ray diffraction was used to detect the phase transformation. Cyclic stress response curves exhibited different combinations of cyclic hardening, saturation and cyclic softening. Deformation-induced martensite was detected by x-ray diffraction and the amount increased with strain amplitude at RT, which is responsible for the rapid secondary hardening. DSA's manifestation only showed up at 650 °C and enhanced at higher strain amplitude, resulting in higher hardening at 650 °C than 550 °C. Fatigue life reduction at RT is due to rapid crack propagation caused by deformation-induced martensite hardening. The DSA hardening leads to a reduction of fatigue life at elevated temperatures by ways of multiple crack initiation and rapid crack propagation.
doi_str_mv	10.1088/2053-1591/aad958
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Optical microscope and scanning electron microscope were used to observe the crystal grains and fracture surface microstructure respectively; x-ray diffraction was used to detect the phase transformation. Cyclic stress response curves exhibited different combinations of cyclic hardening, saturation and cyclic softening. Deformation-induced martensite was detected by x-ray diffraction and the amount increased with strain amplitude at RT, which is responsible for the rapid secondary hardening. DSA's manifestation only showed up at 650 °C and enhanced at higher strain amplitude, resulting in higher hardening at 650 °C than 550 °C. Fatigue life reduction at RT is due to rapid crack propagation caused by deformation-induced martensite hardening. 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Res. Express</addtitle><description>To investigate the deformation-induced martensite and dynamic strain aging (DSA) during cyclic deformation in AISI 321, fatigue tests were carried out at strain amplitude 0.5% and 0.9% at room temperature (RT), 550 °C and 650 °C. Optical microscope and scanning electron microscope were used to observe the crystal grains and fracture surface microstructure respectively; x-ray diffraction was used to detect the phase transformation. Cyclic stress response curves exhibited different combinations of cyclic hardening, saturation and cyclic softening. Deformation-induced martensite was detected by x-ray diffraction and the amount increased with strain amplitude at RT, which is responsible for the rapid secondary hardening. DSA's manifestation only showed up at 650 °C and enhanced at higher strain amplitude, resulting in higher hardening at 650 °C than 550 °C. Fatigue life reduction at RT is due to rapid crack propagation caused by deformation-induced martensite hardening. 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Res. Express</addtitle><date>2019-02-01</date><risdate>2019</risdate><volume>6</volume><issue>2</issue><spage>26530</spage><pages>26530-</pages><issn>2053-1591</issn><eissn>2053-1591</eissn><abstract>To investigate the deformation-induced martensite and dynamic strain aging (DSA) during cyclic deformation in AISI 321, fatigue tests were carried out at strain amplitude 0.5% and 0.9% at room temperature (RT), 550 °C and 650 °C. Optical microscope and scanning electron microscope were used to observe the crystal grains and fracture surface microstructure respectively; x-ray diffraction was used to detect the phase transformation. Cyclic stress response curves exhibited different combinations of cyclic hardening, saturation and cyclic softening. Deformation-induced martensite was detected by x-ray diffraction and the amount increased with strain amplitude at RT, which is responsible for the rapid secondary hardening. DSA's manifestation only showed up at 650 °C and enhanced at higher strain amplitude, resulting in higher hardening at 650 °C than 550 °C. Fatigue life reduction at RT is due to rapid crack propagation caused by deformation-induced martensite hardening. The DSA hardening leads to a reduction of fatigue life at elevated temperatures by ways of multiple crack initiation and rapid crack propagation.</abstract><pub>IOP Publishing</pub><doi>10.1088/2053-1591/aad958</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0002-2110-4250</orcidid></addata></record>
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title	The deformation-induced martensite and dynamic strain aging during cyclic deformation in AISI 321
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