Interaction of glissile dislocations with perfect and truncated stacking-fault tetrahedra in irradiated metals

Philosophical Magazine A Pub Date : 2002-09-01 DOI:10.1080/01418610208240062

M. Hiratani, H. Zbib, B. Wirth

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引用次数: 40

Abstract

Abstract Mechanisms for the collapse and absorption of truncated stacking-fault tetrahedra (SFTs) by approaching dislocations are proposed. Both self-energy and elastic interaction energy in a straight dislocation-SFT system are calculated analytically. Although an isolated perfect or truncated SFT is in many cases more stable than a perfect dislocation loop or Frank sessile loop, it can become metastable under the influence of strain fields of surrounding dislocations. Interaction between incident dislocations and SFTs can cause instability of the perfect SFT relative to a truncated SFT, Frank sessile loop and perfect dislocation loop. In general, the interaction between a single SFT and a single dislocation is found to be not large enough for thermal activations to overcome the elastic barriers between a metastable truncated SFT and a stable unfaulted loop. Pinning through core reactions and dislocation pile-ups in certain glide systems approaching the SFT are shown to lower the activation barriers considerably. These collapse and absorption mechanisms can explain the production of defect-free channels in irradiated materials.

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辐照金属中滑动位错与完全和截断层错四面体的相互作用

摘要提出了截断叠错四面体(SFTs)在接近位错作用下的崩塌和吸收机理。对直线位错- sft系统的自能和弹性相互作用能进行了解析计算。尽管孤立的完美或截断的SFT在许多情况下比完美位错环或Frank无根环更稳定，但在周围位错应变场的影响下，它可能变得亚稳态。相对于截断的SFT、Frank无基环和完美位错环，偶发位错与SFT之间的相互作用会导致完美SFT的不稳定性。一般来说，单个SFT和单个位错之间的相互作用不足以使热激活克服亚稳截断SFT和稳定无故障环之间的弹性障碍。在某些接近SFT的滑动体系中，钉住核心反应和位错堆积可以显著降低激活障碍。这些坍塌和吸收机制可以解释辐照材料中无缺陷通道的产生。

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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