结构工程
振动疲劳
材料科学
应变硬化指数
硬化(计算)
随机变量
疲劳试验
数学
工程类
复合材料
统计
图层(电子)
作者
Jie Wang,Jianhui Liu,Feilon Hua,Yingbao He,Xuexue Wang
出处
期刊:International Journal of Structural Integrity
[Emerald Publishing Limited]
日期:2022-08-04
卷期号:13 (5): 845-856
被引量:9
标识
DOI:10.1108/ijsi-06-2022-0083
摘要
Purpose Engineering components/structures are usually subjected to complex and variable loads, which result in random multiaxial stress/strain states. However, fatigue analysis methods under constant loads cannot be directly applied to fatigue life prediction analysis under random loads. Therefore, the purpose of this study is how to effectively evaluate fatigue life under multiaxial random loading. Design/methodology/approach First, the average phase difference is characterized as the ratio of the number of shear strain cycles to the number of normal strain cycles, and the new non-proportional additional hardening factor is proposed. Then, the determined random typical load spectrum is processed into a simple variable amplitude load spectrum, and the damage in each plane is calculated according to the multiaxial fatigue life prediction model and Miner theory. Meanwhile, the cumulative damage can be calculated separately by projection method. Finally, the maximum projected cumulative damage plane is defined as the critical plane of multiaxial random fatigue. Findings The fatigue life prediction capability of the method is verified based on test data of TC4 titanium alloy under random multiaxial loading. Most of the predicting results are within double scatter bands. Originality/value The objective of this study is to provide a reference for the determination of critical plane and non-proportional additional hardening factor under multiaxial random loading, and to promote the development of multiaxial fatigue from experimental studies to practical engineering applications.
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