Mechanical behaviour and dislocation arrangements of cyclically deformed silicon single crystals

Philosophical Magazine A Pub Date : 2002-11-01 DOI:10.1080/01418610208240440

M. Legros, A. Jacques, A. George

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引用次数: 5

Abstract

Abstract The mechanical behaviour of single-crystal Si tested in fatigue was investigated under plastic strain amplitude control conditions, at a plastic shear strain rate of 3 × 10−4 s−1 in the temperature range 825–900°C, where the lattice frictional forces are still effective, for plastic strain amplitudes ranging from 6 × 10−4 to 5 × 10−3. Cyclic stress-strain curves exhibit two different stages of hardening and pass through a marked maximum before saturation is reached. The saturation stress is decreased when the strain amplitude per cycle is increased. Scanning electron microscopy observations suggest that strain localization takes place near the maximum stress and beyond. Transmission electron microscopy reveals a variety of dislocation arrangements, the most typical of which are, firstly, regularly spaced elongated braids of edge dipoles, secondly, thicker stripes with dense shells and whose cores contain apparently self-organized secondary dislocations and, thirdly, long rows of prismatic loops. Similarities to and differences from dislocation arrangements observed in fatigued fcc metals are briefly discussed.

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循环变形硅单晶的力学行为和位错排列

在825 ~ 900℃范围内，当塑性剪切应变速率为3 × 10−4 s−1时，晶格摩擦力仍然有效，塑性应变幅值范围为6 × 10−4 ~ 5 × 10−3，研究了单晶Si在塑性应变幅值控制条件下的疲劳力学行为。循环应力-应变曲线表现出两个不同的硬化阶段，并在达到饱和之前通过一个显著的最大值。随着循环应变幅值的增大，饱和应力减小。扫描电镜观察表明，应变局部化发生在最大应力附近及以后。透射电镜显示了多种位错排列，其中最典型的是:第一，有规则间隔的边缘偶极子的细长辫子;第二，较厚的条纹，密集的壳，其核心包含明显自组织的二次位错;第三，长排的棱柱形环。简要讨论了疲劳fcc金属中观察到的位错排列的异同。

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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Philosophical Magazine A

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