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The Influence of Crack Tip Modeling on the Prediction of Critical Crack Length in Pressure Tube Alloys

机译：裂纹尖端建模对压管合金临界裂纹长度预测的影响

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The need for accurate prediction of critical crack length (CCL) for materials exhibiting stable crack growth prior to the onset of fast fracture is demonstrated by accurately predicting CCL from Irwin's approach by simply varying the geometry factor to accommodate changes in crack tip shape for various heat treatments applied to the Zr-2.5 wt.%Nb (Zr-Nb) alloy used in pressure tubes. The accuracy of the predictions is shown by experiments on 17 mm compact specimens for three heat treatments. The measured crack lengths were confirmed by applying the predictive capability of Irwin's approach to earlier work on this material and the sister pressure tube material, Zr-Sn.

机译：通过简单地改变几何因子，通过简单地改变几何因子来对来自IRWIN的方法进行精确预测CCL来表明对快速骨折之前表现出快速断裂之前的临界裂纹长度（CCL）的临界裂纹长度（CCL）的需要。通过简单地改变几何系数以适应各种热量的裂纹尖端形状的变化施用于压力管中使用的Zr-2.5重量％的Zr-2.5重量％的处理。通过对17毫米紧凑的标本进行实验显示预测的准确性，用于三种热处理。通过应用IRWIN方法对该材料的早期工作的预测能力和姐妹压力管材料，Zr-Sn来确认测量的裂缝长度。

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《ASME Pressure Vessels and Piping Conference》|1996年||共5页
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Peter F. Timmins;
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中图分类 T-53;
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The Influence of Crack Tip Modeling on the Prediction of Critical Crack Length in Pressure Tube Alloys

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