材料科学
挤压
层状结构
极限抗拉强度
晶界
合金
微观结构
复合材料
相(物质)
打滑(空气动力学)
纹理(宇宙学)
有机化学
化学
人工智能
物理
图像(数学)
热力学
计算机科学
作者
Jianxin Zhou,Hong Yang,Xiaojun Luo,Wenlong Xie,Bin Jiang,Zhihua Dong,Jiangfeng Song,Junyao Xu,Guangsheng Huang,Dingfei Zhang,Fusheng Pan
标识
DOI:10.1016/j.jmrt.2023.07.213
摘要
The effects of extrusion temperatures (430, 450, 470 and 490 °C) on the microstructures and mechanical properties of Mg-11Gd-5Y-2Zn-0.7Zr (GW) alloys at room temperature (RT), 250, 300, 350 °C were systematically investigated. The dynamic precipitation of blocky and lamellar long period stacking ordered (LPSO) phases was taken place during hot extrusion. The dominant texture changed from <10 1¯0 >//ED to <0001>//ED with increasing extrusion temperature. Tensile results indicated that the GW alloy extruded at 430 °C (GW430) exhibited the highest mechanical properties at both RT and elevated temperatures, which was ascribed to the fine dynamic recrystallized (DRXed) grains, un-DRXed grains with an orientation of <10 1¯0 >//ED, and the LPSO phase strengthening. When tensile tested below 300 °C, slips on the blocky LPSO phase and kinks of lamellar LPSO phase were the primary deformation modes, followed by grain boundary crack. At 350 °C, grain boundaries became the vulnerable sites to be activated. For GW alloys extruded at 450, 470 and 490 °C, an abnormal increase of mechanical properties was observed at 300 °C. This was due to the occurrence of multiple-slip, which showed the intersection and entanglement of dislocations and thus improving the strength of Mg matrix.
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