Effect of yttrium concentration on creep of Mg-Y alloys at 550K

机译：钇浓度对550K Mg-Y合金蠕变的影响

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Creep behavior of Mg-Y binary alloys with various yttrium concentration have been examined at 550K. Creep strength is remarkably improved by the addition of yttrium. The concentration exponent, m of creep rate changes from apprhx 2 (in the solid-solution range) to approx 5 (in the two-phase range) with increasing yttrium concentration. TEM observations reveal that the non-basal, as well as the basal, slip systems are activated in the two-phase range, while the activation of the non-basal slip system is not obviously observed in the solid-solution range. Dynamic precipitation on dislocations during creep deformation occurs in the two-phase range. The strengthening due to the addition of yttrium is attributed to (i) solution-hardening, (ii) dynamic precipitation, and (iii) the forest dislocation density.

机译：已经在550K下检查了具有不同钇浓度的Mg-Y二元合金的蠕变行为。添加钇可以显着提高蠕变强度。随着钇浓度的增加，蠕变速率的浓度指数m从约2（在固溶体范围内）变为约5（在两相范围内）。 TEM观察表明，非基滑模系统在两相范围内均被激活，而在固溶体范围内未明显观察到非基滑模系统的激活。在蠕变变形过程中位错上的动态降水发生在两相范围内。由于添加钇而导致的强化归因于（i）固溶硬化，（ii）动态降水和（iii）森林错位密度。

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《Creep and fracture of engineering materials and structures》|1997年|p.59-67|共9页
会议地点 Irvine CA(US)
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M.Suzuki; H.Sato; K.Maruyama; H.Oikawa;
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正文语种 eng
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Effect of yttrium concentration on creep of Mg-Y alloys at 550K

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