连续位错动力学中的湮灭与源

Mehran Monavari, Michael Zaiser
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引用次数: 28

摘要

连续位错动力学(CDD)的目的是用类密度场变量来表示弯曲和连接的位错线系统的演化。在这里,我们讨论如何在这样一个框架内描述位错倍增和湮灭的过程。我们表明,这两个过程都与位错环的体积密度变化有关:位错湮灭需要在位错环的合并方面进行设想,而相反,位错倍增与新环的产生有关。这两个发现都指出了将环的体积密度(或“曲率密度”)作为一个附加的场变量纳入位错密度演化的连续模型的重要性。我们明确地展示了这个密度是如何受到环路合并和环路产生的影响的。由最低阶CDD理论得到的方程,在空间平均和单向变形的假设下,使我们能够恢复经典的Kocks和Mecking的早期加工硬化理论。
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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Annihilation and sources in continuum dislocation dynamics

Continuum dislocation dynamics (CDD) aims at representing the evolution of systems of curved and connected dislocation lines in terms of density-like field variables. Here we discuss how the processes of dislocation multiplication and annihilation can be described within such a framework. We show that both processes are associated with changes in the volume density of dislocation loops: dislocation annihilation needs to be envisaged in terms of the merging of dislocation loops, while conversely dislocation multiplication is associated with the generation of new loops. Both findings point towards the importance of including the volume density of loops (or ’curvature density’) as an additional field variable into continuum models of dislocation density evolution. We explicitly show how this density is affected by loop mergers and loop generation. The equations which result for the lowest order CDD theory allow us, after spatial averaging and under the assumption of unidirectional deformation, to recover the classical theory of Kocks and Mecking for the early stages of work hardening.

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期刊介绍: Journal of Materials Science: Materials Theory publishes all areas of theoretical materials science and related computational methods. The scope covers mechanical, physical and chemical problems in metals and alloys, ceramics, polymers, functional and biological materials at all scales and addresses the structure, synthesis and properties of materials. Proposing novel theoretical concepts, models, and/or mathematical and computational formalisms to advance state-of-the-art technology is critical for submission to the Journal of Materials Science: Materials Theory. The journal highly encourages contributions focusing on data-driven research, materials informatics, and the integration of theory and data analysis as new ways to predict, design, and conceptualize materials behavior.
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