Dependence of Ductile and Brittle Response on Initial Energy Dissipation Mechanism at Crack Tip From the Atomic Scale to the Mesoscale

机译：韧性和脆性响应对裂纹尖端初始能量耗散机理的依赖性依赖性

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The criteria which determine the initial energy dissipation mechanism that is activated at or near a crack tip are derived. The possible mechanisms considered are cleavage, crack tip dislocation nucleation and also Frank-Read source activation near the tip. The criteria can be succinctly expressed in graphical form. It is suggested that a change in the initial energy dissipation mechanism may determine the conditions under which the brittle to ductile transition occurs. The criteria compare favourably to several experiments in the literature which address the competition between the various energy dissipation mechanisms.

机译：确定衍生在裂纹尖端或附近被激活的初始能量耗散机制的标准。所考虑的可能机制是裂解，裂缝尖端位错核，并在尖端附近的坦率读取源激活。标准可以简洁地以图形形式表达。建议初始能量耗散机制的变化可以确定发生韧性转变的脆性转变的条件。标准对文献中的几个实验相比，解决了各种能量耗散机制之间的竞争。

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《IUTAM Symposium on Mesoscopic Dynamics of Fracture Process and Materials Strength》|2003年||共12页
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Jeffrey W. Kysar;
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中图分类 O3-532;
关键词
Fracture; dislocation; crack tip dislocation nucleation; Frank-Read dislocation source; ductile to brittle transition;

机译：裂缝;错位;裂缝尖位脱位成核;坦率读取的位错源;韧性转型;

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4. Dependence of Ductile and Brittle Response on Initial Energy Dissipation Mechanism at Crack Tip From the Atomic Scale to the Mesoscale [C] . Jeffrey W. Kysar IUTAM Symposium on Mesoscopic Dynamics of Fracture Process and Materials Strength . 2003

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Dependence of Ductile and Brittle Response on Initial Energy Dissipation Mechanism at Crack Tip From the Atomic Scale to the Mesoscale

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