Assessment for Decrease in Threshold Stress Intensity Factor (SIF) Range Due to High Maximum SIF

机译：由于高最大SIF，阈值应力强度因子（SIF）范围减少的评估

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In this paper, we consider the decrease in threshold stress intensity factor (SIF) range ΔK{sub}(th) due to high maximum SIF K, which is observed for several materials in the tests with the K{sub}(max) constant method when closure-free conditions are realized. We proposed an assessment criterion to predict this phenomenon from the past data for Al and Ti and showed that the criterion is valid also for steels. Finally, we proposed a simplified model to explain the phenomenon, considering the fact that marks of static fracture are observed on the fracture surface.

机译：在本文中，我们考虑由于高最大SIF k导致的阈值应力强度因子（SIF）范围ΔK{Sub}（Th）的降低，该k + {sub}（max）常数在测试中观察到几种材料实现无闭束条件的方法。我们提出了评估标准，以预测来自Al和Ti的过去数据的这种现象，并表明标准也有效地用于钢。最后，我们提出了一种简化的模型来解释这种现象，考虑到在骨折表面上观察到静态断裂标记的事实。

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《International ASTM/ESIS Symposium on Fatigue and Fracture Mechanics》|2005年||共13页
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Toshiyuki Meshii; Kenichi Ishihara; Katsuhiko Watanabe;
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正文语种
中图分类机械试验法;
关键词
Fracture mechanics; Fatigue crack growth; Threshold stress intensity factor range; Static fracture mode;

机译：裂缝力学;疲劳裂纹增长;阈值应力强度因子范围;静态断裂模式;

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Assessment for Decrease in Threshold Stress Intensity Factor (SIF) Range Due to High Maximum SIF

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