位错钛中氦泡聚结的研究

Baoling Zhang, Xue Su, Chongyang Li, Junwei Zhang
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引用次数: 0

摘要

位错和晶界对氦在材料中的行为有很大的影响。本文用分子动力学方法模拟了位错作用下钛中的氦泡聚并过程。结果表明:当第二个氦泡在滑移面附近成核时,它会向位错核处的第一个氦泡生长直至两者合并;然而,如果两个氦泡位于(001)平面的不同原子层,则不容易发生聚并。如果第二个氦气泡在具有完整原子层的滑移面一侧成核,则第二个氦气泡的生长可能导致第一个氦气泡向滑移面的另一侧移动。第二个氦泡的生长速度和方向与其周围的压力密切相关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study on Helium Bubble Coalescence in Titanium with Dislocations
Dislocation and grain boundary have great influence on helium behavior in materials. In this paper, the helium bubble coalescence in titanium with dislocations was simulated using molecular dynamics method. The results show that, when the second helium bubble nucleates near the slip plane, it grows toward the first helium bubble which lies at the dislocation core till they coalesce with each other. However, it is not easy for the coalescence to occur if the two helium bubbles lie in different atomic layers in (001) plane. If the second helium bubble is nucleated on the side of the slip plane with full atomic layers, the second helium bubble growth could lead to the movement of the first helium bubble toward the other sides of the slip plane. The growth rate and direction of the second helium bubble are closely related to the pressure around it.
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