在175℃,50 MPa条件下对Mg-5%Zn-2%Al及含2%Y(质量分数,%)的两种合金的固溶态与铸态蠕变行为进行了研究,TEM观察与分析表明:蠕变到12 h时固溶态合金已经发生了动态析出,动态析出相为棒状MgZn2相,沿基体{1120}α面并垂直于基面(0001)析出;蠕变曲线的对比表明,动态析出过程可使稳态蠕变速率明显减小.TEM分析证实,在蠕变过程中基面a-位错交滑移至棱面{0110}α,计算表明,阻碍基面a-位错交滑移的主要因素为基面扩展位错的束集能,而棒状MgZn2相可促使基面扩展位错束集.随着蠕变时间的延长,动态析出相逐渐由棒状MgZn2相向颗粒状平衡相MgZn相转变.添加Y可明显改善合金的蠕变性能
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