Effect of junction disclinations on crack nucleation during induced grain boundary sliding

S. Kirikov, V. Perevezentsev, A. Pupynin
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引用次数: 1

Abstract

The nucleation of a microcrack in the grain junction of grains due to induced athermal grain boundary sliding under the action of stresses from the accumulation of virtual dislocations of planar shear mesodefect, stresses from junction disclinations and external stress is considered. It is shown that the existing criteria do not allow us to take into account the influence of the stress field of the junction disclination on the crack nucleation. A new energy criterion based on the concept of spontaneous crack nucleation of the minimum possible length for a crystalline body is proposed. Using this criterion, an analysis of the conditions necessary for the crack nucleation has been carried out. The dependences of the critical value of an external load required for crack nucleation on the strength of junction disclinations at different values of the parameters of the fragmented structure of material (the size of the boundaries of fragments and the strength of rotational-shear mesodefects) and the threshold stress of athermal sliding were obtained. It is shown that the presence of a sufficiently high-strength negative disclination at the grain junction can significantly facilitate the nucleation of a crack.
晶界诱导滑动过程中结界位错对裂纹形核的影响
考虑了在平面剪切细观缺陷虚拟位错积累应力、结合部位错应力和外部应力的作用下,晶界非热滑动引起的晶界微裂纹的形核。结果表明,现有的准则不能考虑结斜向应力场对裂纹形核的影响。基于晶体最小可能长度自发裂纹形核的概念,提出了一种新的能量判据。利用这一准则,对裂纹形核的必要条件进行了分析。得到了裂纹成核所需的外载荷临界值与材料破碎结构参数(破碎边界尺寸和旋转-剪切介观缺陷强度)不同值下结斜向强度和非热滑动阈值应力的关系。结果表明,在晶界处存在足够高强度的负斜向能显著促进裂纹的形核。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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