APPLICATION OF MICROSTRUCTURE-BASED FATIGUE MODELS TO COMPONENT LIFE PREDICTION

机译：基于微结构的疲劳模型在组件寿命预测中的应用

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This paper summarizes the development of a set of microstructure-based fatigue crack initiation and growth models for probabilistic life-prediction of structural components. Microstructural parameters that impact fatigue crack initiation and growth lives are identified and incorporated explicitly into the response equations. Fatigue life variability due to microstructure variation is then treated via a probabilistic approach. Applications of these microstructure-based fatigue models to predicting the variability of fatigue crack initiation and growth response of the Ni-based superalloy, IN 718, are demonstrated and compared against experimental data. The use of the information on the crack size and da/dN variabilities in probabilistic design and lifing of structural components is illustrated by numerical simulations.

机译：本文总结了一套基于微结构的疲劳裂纹萌生和增长模型，用于结构部件的概率寿命预测。确定影响疲劳裂纹萌生和增长寿命的微观结构参数，并将其明确地纳入响应方程。然后通过概率方法处理由于微观结构变化而引起的疲劳寿命变化。这些基于微观结构的疲劳模型在预测镍基高温合金IN 718的疲劳裂纹萌生和生长响应的变异性中的应用得到了证明，并与实验数据进行了比较。通过数值模拟说明了在裂纹概率和da / dN变异性信息在概率设计和结构构件起伏中的使用。

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来源
《Fatigue 2003: Fatigue amp; Durability Assessment of Materials, Components amp; Structures》|2003年|P.39-48|共10页
会议地点 Cambridge(GB)
作者
Kwai S. Chan; Michael P. Enright;
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Southwest Research Institute, 6220 Culebra Road, San Antonio, Texas 78238-5166;

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原文格式 PDF
正文语种 eng
中图分类疲劳理论;
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APPLICATION OF MICROSTRUCTURE-BASED FATIGUE MODELS TO COMPONENT LIFE PREDICTION

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