A new kind of reliability analysis method in coupled case of high-cycle fatigue and low-cycle fatigue

2012 International Conference on Quality, Reliability, Risk, Maintenance, and Safety Engineering Pub Date : 2012-06-15 DOI:10.1109/ICQR2MSE.2012.6246385

X. Shao, Lijun Cao, Jinhua Liu, Guangsheng Liu, Guibo Yu, Guang Tian

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引用次数: 3

Abstract

To overcome the limitation of traditional reliability analysis methods in coupled cases of high-cycle fatigue and low-cycle fatigue and accurately analyze the stochastic fatigue reliability of component, a new kind of method decoupling method for high-cycle fatigue and low-cycle fatigue is firstly put forward. The stress and strain spectrums are corrected and classified. As for high-cycle fatigue, probability fatigue accumulation damage theory and nominal stress method are combined. As for low-cycle fatigue, random response surface method is adopted to fit the life distribution function, probability fatigue accumulation damage theory and local stress and strain method are combined to obtain the high-cycle and low-cycle stochastic fatigue reliability. Composite damage of high-cycle and low-cycle is analyzed based on probability fatigue accumulation damage theory to achieve the stochastic fatigue reliability of torsion shaft of complicated equipment.

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提出了一种新的高周疲劳与低周疲劳耦合的可靠性分析方法

为了克服传统可靠性分析方法在高周疲劳与低周疲劳耦合情况下的局限性，准确分析构件的随机疲劳可靠性，首次提出了一种新的高周疲劳与低周疲劳解耦方法。对应力和应变谱进行了校正和分类。对于高周疲劳，将概率疲劳累积损伤理论与名义应力法相结合。对于低周疲劳，采用随机响应面法拟合寿命分布函数，结合概率疲劳累积损伤理论和局部应力应变法获得高周和低周随机疲劳可靠度。基于概率疲劳累积损伤理论，对高、低周复合损伤进行分析，实现复杂设备扭转轴的随机疲劳可靠性。

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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2012 International Conference on Quality, Reliability, Risk, Maintenance, and Safety Engineering

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