材料科学
挤压
打滑(空气动力学)
晶体孪晶
镁合金
不对称
压缩(物理)
极限抗拉强度
复合材料
冶金
纹理(宇宙学)
抗压强度
镁
微观结构
热力学
物理
图像(数学)
量子力学
人工智能
计算机科学
作者
Haixuan Wang,Wenzhen Chen,Wencong Zhang,Daqing Fang,Songhui Wang,Wenke Wang
标识
DOI:10.1016/j.matchar.2023.113599
摘要
In order to improve the tension-compression asymmetry that exists widely in extruded magnesium alloys, ZK61 magnesium alloys with different texture characteristics were prepared by conventional extrusion, compression-extrusion, and cyclic extrusion compression. The effect of texture on the tension-compression asymmetry and associated deformation mechanisms of magnesium alloys was revealed based on the Sachs assumption. Subsequently, a texture-modified Hall-Petch relationship was used to quantify the combined effect of texture and grain on both tensile and compressive yield strengths. It is found that the slight weakening of the {0002}∥LD fiber texture was beneficial to the suppression of {10‐12} twinning and the activation of prismatic slip, which in turn significantly improved the tension-compression asymmetry without the obvious sacrifice of strength. However, excessive texture inclining can cause a striking decrease in strengths and even reverse tension-compression asymmetry due to the activation of basal slip and pyramidal slip. In conclusion, slight basal texture weakening was a texture optimization strategy to obtain tension-compression symmetry and high strength for wrought magnesium alloys.
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