研究了7050铝合金在温度为460℃,应变速率分别为1.0×10-4s-1和 0.1s-1条件下的高温拉伸变形过程.结果表明:7050铝合金在高温拉伸过程中平均晶界取向差角与真应变之间保持比例关系,晶粒尺寸随变形的进行而增加.晶粒的长径比在变形条件为460℃/1.0×10-4s-1变形时基本保持不变;而变形条件为460℃/0.1s-1时,晶粒长径比则随着变形的进行而增加.微观组织结果表明,7050铝合金在460℃/1.0×10-4s-1的变形过程中,软化机制为连续动态再结晶,而变形条件为460℃/0.1s-1时,软化机制为动态回复.连续动态再结晶过程中平均晶界取向差角的持续增加与亚晶界的迁移和变形过程中晶界吸入位错有关.
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