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柱状多晶Mg-Gd-Y合金形变组织演变及形变硬化机制

CHAI Tao,GENG Chuangang,FANG Daran,ZHAO Shengshi,LIN Xiaoping,DONG Yun

Materials Reports(2023)

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Abstract
利用定向凝固技术制备了生长取向集中于[2243]、基面滑移取向因子(Schmid factor,SF)大于0.4的柱状多晶Mg-6.38Gd-0.45Y合金,并研究了实验合金室温拉伸形变行为.结果表明,形变初期,软取向柱状晶内首先启动{1012}拉伸孪生协调应变.形变过程中,{1012}拉伸孪晶界快速、大范围扩展,吞噬基体并使基体取向逐渐转为[1210](SF<0.15),于是启动{1011}压缩孪生和{1011}-{1012}双孪生协调应变.压缩孪晶和双孪晶易形成压缩孪晶带群,并贯穿整个晶粒,滑移或扩展的位错及拉伸孪晶界与压缩孪晶带群交织在一起,产生形变硬化,提高合金强度的同时也形成应力高度集中分布区域,成为微裂纹形成之地.
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