Using lifetime of point defects for dislocation bias in bcc Fe

IF 12.2 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Current Opinion in Solid State & Materials Science Pub Date : 2022-10-01 DOI:10.1016/j.cossms.2022.101021
Jiannan Hao , Luis Casillas-Trujillo , Haixuan Xu
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引用次数: 3

Abstract

The interaction between dislocations and point defects is key to deformation processes and microstructural evolution of structural materials. In this work, we compute the lifetime of point defects to describe their interaction with dislocations. This approach can accurately account for the effects of the dislocation core and anisotropic defect dynamics to accumulatively determine the capture efficiency, sink strength, and dislocation bias at different temperatures and dislocation densities. Particularly, the absorption of point defects by straight screw and edge dislocations in a model bcc iron system is studied. The maximum swelling rates based on the obtained bias factors are in close agreement with a variety of experimental measurements, including both neutron and ion-irradiation data, especially when considering the survival fraction for point defects from displacement cascades. This approach applies to many other processes and sinks, such as dislocation loops and interfaces, providing a powerful means to develop fundamental insights critical for improving radiation resistance and mechanical properties of structural materials through controlling defect interaction and evolution.

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用点缺陷寿命研究bcc Fe中位错偏置
位错与点缺陷之间的相互作用是结构材料变形过程和微观组织演化的关键。在这项工作中,我们计算点缺陷的寿命来描述它们与位错的相互作用。该方法可以准确地解释位错核和各向异性缺陷动力学的影响,从而累积确定不同温度和位错密度下的捕获效率、沉降强度和位错偏差。特别研究了直螺位错和边缘位错对bcc铁体系中点缺陷的吸收。基于所得偏置系数的最大膨胀率与各种实验测量结果(包括中子和离子辐照数据)非常吻合,特别是考虑位移级联中点缺陷的存活分数时。这种方法适用于许多其他过程和下沉,例如位错环和界面,为通过控制缺陷的相互作用和演变来提高结构材料的耐辐射性和机械性能提供了一种强有力的手段。
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来源期刊
Current Opinion in Solid State & Materials Science
Current Opinion in Solid State & Materials Science 工程技术-材料科学:综合
CiteScore
21.10
自引率
3.60%
发文量
41
审稿时长
47 days
期刊介绍: Title: Current Opinion in Solid State & Materials Science Journal Overview: Aims to provide a snapshot of the latest research and advances in materials science Publishes six issues per year, each containing reviews covering exciting and developing areas of materials science Each issue comprises 2-3 sections of reviews commissioned by international researchers who are experts in their fields Provides materials scientists with the opportunity to stay informed about current developments in their own and related areas of research Promotes cross-fertilization of ideas across an increasingly interdisciplinary field
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