离散化的Peierls- nabarro模型:在多种晶体位错的Peierls应力中的应用

MatSciRN: Computational Studies of Inorganic & Organic Materials (Topic) Pub Date : 2018-12-31 DOI:10.2139/ssrn.3308468

K. Edagawa, Y. Kamimura, A. Iskandarov, Y. Umeno, S. Takeuchi

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引用次数: 0

摘要

本文采用一种新的离散化的Peierls- nabarro模型(D-PN模型)，利用计算得到的从头算γ-表面，计算了多种晶体中位错的Peierls应力。在D-PN模型中，面向滑动平面的原子行对的失配分布由失配引起的恢复应力和内应力之间的平衡决定，由放置在原子行对的每个中间位置的一组小位错决定，而不是原PN模型中无穷小位错的连续分布。通过对允许结构松弛的模型施加剪切应力，得到了佩尔斯应力。尽管两种模型的位错宽度几乎相同，但计算出的Peierls应力与之前由原始PN模型获得的应力相比有很大的减小(Y. Kamimura等人，Acta Mater. 148(2018) 355-362)。除了一些非常软的晶体外，它们与Y. Kamimura等人(Acta Mater. 61(2013) 294-306)的实验估计值具有良好的相关性，尽管计算出的Peierls应力通常仍比实验值大几个因素。

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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A Discretized Peierls-Nabarro Model: Its Application to Peierls Stresses of Dislocations in a Variety of Crystals

We have computed Peierls stresses of dislocations in a variety of crystals by applying a new discretized Peierls-Nabarro model (D-PN model) of the dislocation using the calculated ab-initio γ-surface. In the D-PN model, the disregistry distribution of atomic-row pairs facing at the glide plane is determined by the balance between the restoring stress due to the disregistry and the internal stress by an array of small dislocations placed at every intermediate position of atomic-row pairs, instead of continuous distribution of infinitesimal dislocations in the original PN model. Peierls stresses have been obtained by applying the shear stress to the model under which the structure is allowed to relax. The calculated Peierls stresses are largely reduced compared with those previously obtained by the original PN model (Y. Kamimura et al., Acta Mater. 148 (2018) 355-362), although the dislocation widths of the two models are almost the same. They have a good correlation with those experimentally estimated by Y. Kamimura et al. (Acta Mater. 61 (2013) 294-306) except for some very soft crystals, though the calculated Peierls stresses are generally still larger than those of experiments by a few factor.

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MatSciRN: Computational Studies of Inorganic & Organic Materials (Topic)

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