Microstructure and mechanical properties of sand-cast Mg-6Gd-3Y-0.5Zr alloy subject to thermal cycling treatment

This work was undertaken to investigate the microstructural evolution, mechanical properties and fracture behavior of sand-cast Mg-6Gd-3Y-0.5 Zr (GW63) alloy subject to thermal cycling treatment. In order to simulate the thermal cycling under extreme service conditions (space or moon environments),...

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Published inJournal of materials science & technology Vol. 43; pp. 208 - 219
Main Authors Zhou, Beiping, Liu, Wencai, Wu, Guohua, Zhang, Liang, Zhang, Xiaolong, Ji, Hao, Ding, Wenjiang
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.04.2020
Subjects
Deep cryogenic cycling
Deep cryogenic-elevated temperature cycling
Mechanical properties
Mg-Gd-Y-Zr
Microstructure evolution
Deep cryogenic cycling
Mechanical properties
Deep cryogenic-elevated temperature cycling
Microstructure evolution
Mg-Gd-Y-Zr
Online AccessGet full text
ISSN1005-0302
1941-1162
DOI10.1016/j.jmst.2020.01.013

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Abstract This work was undertaken to investigate the microstructural evolution, mechanical properties and fracture behavior of sand-cast Mg-6Gd-3Y-0.5 Zr (GW63) alloy subject to thermal cycling treatment. In order to simulate the thermal cycling under extreme service conditions (space or moon environments), the sand-cast and T6 treated GW63 alloys were subjected to thermal cycling treatment which consists of deep cryogenic-elevated temperature cycling treatment (DCET) and deep cryogenic cycling treatment (DCT). Results indicate that there are significant gains in yield strength (YS) and ultimate tensile strength (UTS) of the sand-cast GW63 alloy after DCET, whereas the T6 state alloy undergoes a different variation in mechanical properties. However, no appreciable influence is revealed on the mechanical properties of the tested GW63 alloys after DCT. Meanwhile, the DCT and DCET have no obvious effects on the fracture morphology. The DCT enhances the precipitation kinetics via providing favorable nucleation sites for the precipitation of second phases. The elevated temperature process of DCET plays a crucial role in improving the aging-hardening responses and releasing the stress concentration brought by DCT to a great extent, leading to overcome the obstacle of essential phase transformation. The changes in mechanical properties are primarily attributed to the phase transformation of the studied alloys during DCET.
AbstractList This work was undertaken to investigate the microstructural evolution, mechanical properties and fracture behavior of sand-cast Mg-6Gd-3Y-0.5 Zr (GW63) alloy subject to thermal cycling treatment. In order to simulate the thermal cycling under extreme service conditions (space or moon environments), the sand-cast and T6 treated GW63 alloys were subjected to thermal cycling treatment which consists of deep cryogenic-elevated temperature cycling treatment (DCET) and deep cryogenic cycling treatment (DCT). Results indicate that there are significant gains in yield strength (YS) and ultimate tensile strength (UTS) of the sand-cast GW63 alloy after DCET, whereas the T6 state alloy undergoes a different variation in mechanical properties. However, no appreciable influence is revealed on the mechanical properties of the tested GW63 alloys after DCT. Meanwhile, the DCT and DCET have no obvious effects on the fracture morphology. The DCT enhances the precipitation kinetics via providing favorable nucleation sites for the precipitation of second phases. The elevated temperature process of DCET plays a crucial role in improving the aging-hardening responses and releasing the stress concentration brought by DCT to a great extent, leading to overcome the obstacle of essential phase transformation. The changes in mechanical properties are primarily attributed to the phase transformation of the studied alloys during DCET.
Author Wu, Guohua
Zhang, Liang
Ji, Hao
Zhang, Xiaolong
Ding, Wenjiang
Liu, Wencai
Zhou, Beiping
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Keywords Deep cryogenic cycling
Mechanical properties
Deep cryogenic-elevated temperature cycling
Microstructure evolution
Mg-Gd-Y-Zr
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Snippet This work was undertaken to investigate the microstructural evolution, mechanical properties and fracture behavior of sand-cast Mg-6Gd-3Y-0.5 Zr (GW63) alloy...
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SubjectTerms Deep cryogenic cycling
Deep cryogenic-elevated temperature cycling
Mechanical properties
Mg-Gd-Y-Zr
Microstructure evolution
Title Microstructure and mechanical properties of sand-cast Mg-6Gd-3Y-0.5Zr alloy subject to thermal cycling treatment
URI https://dx.doi.org/10.1016/j.jmst.2020.01.013
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