Dynamic compression behaviour and constitutive description of fine-grain Mg–4Zn–1Y alloy

Liu, Xuanyu; Mao, Pingli; Wu, Xiaoxu; Liu, Zheng; Zhou, Le; Wang, Zhi; Wang, Feng

doi:10.1080/02670836.2022.2096820

Cited by 2 publications

(1 citation statement)

References 52 publications

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“…Light-weighted and energy-efficient magnesium (Mg) alloys have been received by increasing research interest as potential substitutes for conventional structural materials [1][2][3][4][5]. In spite of the advantages, the relatively low strength and ductility at room temperature as well as poor formability restrict widespread use of magnesium alloy as a commercial engineering material for structural components [6][7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Loading-direction dependence of interaction types between different twin variants in AZ31 alloy

Luo

Zhang

et al. 2023

Materials Science and Technology

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In this research, Loading-direction dependence of interaction types between different [Formula: see text] twin variants in AZ31 alloy was investigated. The microstructure, twin evolution, and the deformation mechanisms of samples were characterised by quasi-in-situ electron backscatter diffraction. The result showed that during rolling direction (RD)-pre-compression and re-compression, the grains with co-zone twin–twin interaction (Type I) are in the majority, while during RD-pre-compression and transverse direction (TD)-re-compression, the grains with non-cozone twin–twin interaction (Type II) are dominant. Furthermore, the effect of different types of twin–twin interaction on subsequent microstructure evolution is clarified. Our experimental results may provide insights for tailoring different types of twin–twin interaction.

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Section: Introductionmentioning

confidence: 99%

Loading-direction dependence of interaction types between different twin variants in AZ31 alloy

Luo

Zhang

et al. 2023

Materials Science and Technology

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Effect of Grain Size on Dynamic Compression Behavior and Deformation Mechanism of ZK60 Magnesium Alloy

Liu

Mao

Zhou

et al. 2023

Metals

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The dynamic compression deformation of 3 µm, 15 µm and 25 µm grain size ZK60 alloys under high-strain-rate compression is systematically studied. Dynamic compression experiments at a strain rate of 1700 s−1 were conducted using a split Hopkinson pressure bar, and the microstructure of the specimen was characterized via electron backscatter diffraction and transmission electron microscopy, as well as via the calculation of Schmid factors. The results showed that the alloy exhibited the decrease in yield strength and peak stress as the grain size increased under dynamic compression. The grain refinement in the alloy was conducive to the activation of basic slip. In turn, an increase in the grain size caused the transition in the main deformation mechanism from pyramidal <a> slip to {10−12} tensile twinning and pyramidal <a> slip. Based on these deformation mechanisms, the Johnson-Cook constitutive equation with different grain sizes was modified, and the fitting results were in accordance with the experimental data.

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Dynamic compression behaviour and constitutive description of fine-grain Mg–4Zn–1Y alloy

Cited by 2 publications

References 52 publications

Loading-direction dependence of interaction types between different twin variants in AZ31 alloy

Loading-direction dependence of interaction types between different twin variants in AZ31 alloy

Effect of Grain Size on Dynamic Compression Behavior and Deformation Mechanism of ZK60 Magnesium Alloy

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