位错
扭转
材料科学
凝聚态物理
等级制度
打滑(空气动力学)
钼
滑翔机
结晶学
物理
几何学
化学
热力学
数学
冶金
经济
市场经济
作者
Vasily V. Bulatov,Wei Cai
标识
DOI:10.1103/physrevlett.89.115501
摘要
We show that, contrary to the prevailing perception, dislocations can become more mobile by zipping together to form junctions. In a series of direct atomistic simulations, the critical stress to move a junction network in a [110] plane of bcc molybdenum is found to be always smaller ( approximately 50%) than that required to move isolated dislocations. Our data support a previously proposed hypothesis about the nature of anomalous slip in bcc transition metals, yet offer a different atomistic mechanism for conservative motion of screw dislocation networks. The same data suggest a hierarchy of motion mechanisms in which lower-dimensional crystal imperfections control the rate of sliding along the low-angle twist boundaries.
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