Evaluation of bonding state of BCC(Fe) edge dislocation core by DV-Xα cluster method : Advances in computational materials science and engineering II

Materials Transactions Jim Pub Date : 2001-11-20 DOI:10.2320/MATERTRANS.42.2232

T. Fukuda, M. Hida, A. Sakakibara, Y. Takemoto

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Abstract

The bonding state has been studied by the discrete variational (DV)-Xa method in the vicinity of the core of the Peierls-Nabarro edge dislocation in the BCC(Fe) crystal the slip systems of which are {112}(111) and [110](111). Bond order and net charge distribution were evaluated in the perfect crystal model cluster and edge dislocation core model cluster with 32 atoms. In the {112}(111) slip system, the total bond order of the nearest neighbor atom pairs in the dislocation model was found to be relatively larger than that in the perfect crystal model. On the other hand, the total bond order of the second neighbor atom pairs in the dislocation model was a little smaller than that in the perfect crystal model. It was also found that there was asymmetry in the bond order between the (110) plane on the left side and the one on the right side of the (110) plane which contains the core atom of dislocation. Net charge and its effect in the dislocation model were larger and wider than those in the perfect crystal model. Almost the same results were also attained for the {110}(111) slip system.

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用DV-Xα簇法评价BCC(Fe)边缘位错芯的键合状态:计算材料科学与工程进展[j]

用离散变分(DV)-Xa方法研究了滑移系统为{112}(111)和[110](111)的BCC(Fe)晶体中peerls - nabarro边位错核心附近的键合状态。对32原子完美晶体模型团簇和边位错核模型团簇的键序和净电荷分布进行了评价。在{112}(111)滑移体系中，位错模型中最近邻原子对的总键序比完美晶体模型中的键序要大。另一方面，位错模型中第二相邻原子对的总键序略小于完美晶体模型。同时发现，(110)面左侧与(110)面右侧含有位错核心原子的平面之间的键序不对称。位错模型中的净电荷及其影响比完美晶体模型中的更大、更宽。{110}(111)滑移系也得到了几乎相同的结果。

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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Materials Transactions Jim

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