位错边界与活动滑动系统

J.A. Wert , Q. Liu , N. Hansen
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引用次数: 63

摘要

参与多晶金属塑性变形的部分位错以二维或三维排列方式存储在位错边界中。可以通过确定相邻晶体之间的取向错误和边界取向来分析这种边界上的位错。结合适当的约束条件,根据晶体取向和施加的应力或应变状态对主动滑移系统进行分析,也可以获得有关边界位错的信息。本文对von Mises应变为0.41的纯铝冷轧时的边界位错结构和滑移系统进行了分析。结果表明,在不同类型的位错边界中,绝大多数位错来自相邻晶中的原生滑移系统和共轭滑移系统。因此,为将变形结构观测与塑性变形行为相结合提供了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dislocation boundaries and active slip systems

Part of the dislocations which have participated in the plastic deformation of a polycrystalline metal are stored in dislocation boundaries in a two- or three-dimensional arrangement. The dislocations in such boundaries can be analysed by determining the misorientation between neighbouring crystallites and the boundary orientation. Information about the dislocations in the boundaries can also be obtained by an analysis of active slip systems based on the crystallite orientation and the imposed stress or strain state in combination with appropriate constraint conditions. In the present paper an analysis of the boundary dislocation structure and of the slip systems has been conducted for pure aluminium cold-rolled to a von Mises strain of 0.41. The results show that a substantial majority of dislocations in different types of dislocation boundaries are from the primary and conjugate slip system in the adjoining crystallites. A basis is therefore provided for integrating deformation structure observations with plastic deformation behaviour.

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