Effect of distribution of grain boundary diffusivity on plastic flow of austenitic steel II: The role of dislocation annihilation in grain boundaries in the plastic flow of polycrystalline materials

Materials Science and Engineering Pub Date : 1988-04-01 DOI:10.1016/0025-5416(88)90243-1

W.A. Swiatnicki, M.W. Grabski

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引用次数: 3

Abstract

Analysis of the effect of temperature and grain size on the hardening process of polycrystalline material has been carried out, assuming that grain boundaries (GB) are the most important dislocations sinks, that the kinetics of dislocation annihilation are controlled by the mobility of GB dislocations and hence by GB diffusion, and that the GB diffusivity is characterized by statistical distribution. To verify the equations derived, tensile tests have been performed within the wide range of temperatures on 0.12C22Cr17Ni austenitic steel subjected to different variants of thermal treatment. It has been found that the course of the changes of the strain-hardening coefficient depends, on the one hand, on the diffusional properties of GB in a given state of material, and on the other hand on grain size and the strain rate applied. The direction and extent of the changes are more adequately described when the distribution of GB diffusivity is taken into account instead of the mean value of GB diffusivity.

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晶界扩散率分布对奥氏体钢塑性流动的影响ⅱ:晶界位错湮没在多晶材料塑性流动中的作用

本文分析了温度和晶粒尺寸对多晶材料硬化过程的影响，假设晶界是最重要的位错汇，位错湮灭动力学受晶界位错迁移率控制，从而受晶界位错扩散控制，晶界位错扩散率具有统计分布特征。为了验证推导出的方程，在0.12C22Cr17Ni奥氏体钢上进行了不同热处理方式的宽温度范围内的拉伸试验。结果表明，应变硬化系数的变化过程一方面取决于材料在一定状态下的扩散性能，另一方面取决于晶粒尺寸和应变速率。当考虑GB扩散系数的分布而不是GB扩散系数的平均值时，变化的方向和程度更能得到充分的描述。

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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