Research on high cycle fatigue damage characterization of FV520B steel based on the nonlinear Lamb wave

IF 1.4 4区工程技术 Q3 ENGINEERING, MECHANICAL

Journal of Strain Analysis for Engineering Design Pub Date : 2021-11-09 DOI:10.1177/03093247211038415

Pengfei Wang, Qiwen Zhou, Bingbing Chen, Sanlong Zheng, Chao Wang, Zengliang Gao

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引用次数: 1

Abstract

In this study, high-strength steel FV520B sheets were subjected to high-cycle tensile-tension fatigue experiments at room temperature in order to obtain fatigue-damaged specimens. Then Lamb waves were used to perform nonlinear ultrasonic testing on them to obtain the normalized relative nonlinear coefficients, β′/β0. The corresponding relationship between β′/β0 and the percentage of fatigue life was obtained. Finally, the microstructural changes of the damaged samples were observed by a scanning electron microscope in order to explore the correlation mechanism between β′/β0 and the degree of micro-defects and fatigue damage. The experimental results showed that as the number of fatigue cycles increased, β′/β0 first slowly rose, then quickly rose to reach a peak, and finally declined, which was consistent with the generation and propagation of dislocations and cracks during fatigue damage. As the length and number of microcracks increased, β′/β0 also increased, especially in the initial stage of fatigue crack initiation. β′/β0 was very sensitive to the size of fatigue cracks, so the change of β′/β0 can be used to detect the degree of early fatigue damage of the material.

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基于非线性兰姆波的FV520B钢高周疲劳损伤特征研究

本研究采用高强度钢FV520B薄板在室温下进行高周张拉疲劳试验，获得疲劳损伤试样。然后利用Lamb波对其进行非线性超声检测，得到归一化的相对非线性系数β′/β0。得到了β′/β0与疲劳寿命百分比的对应关系。最后，通过扫描电镜观察损伤试样的显微组织变化，探讨β′/β0与微缺陷程度和疲劳损伤之间的相关机制。实验结果表明，随着疲劳循环次数的增加，β′/β0先缓慢上升，然后快速上升达到峰值，最后下降，这与疲劳损伤过程中位错和裂纹的产生和扩展相一致。随着微裂纹长度和数量的增加，β′/β0也随之增加，尤其是在疲劳裂纹萌生初期。β′/β0对疲劳裂纹的大小非常敏感，因此β′/β0的变化可以用来检测材料的早期疲劳损伤程度。

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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来源期刊

Journal of Strain Analysis for Engineering Design 工程技术-材料科学：表征与测试

CiteScore

3.50

自引率

6.20%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Strain Analysis for Engineering Design provides a forum for work relating to the measurement and analysis of strain that is appropriate to engineering design and practice. "Since launching in 1965, The Journal of Strain Analysis has been a collegiate effort, dedicated to providing exemplary service to our authors. We welcome contributions related to analytical, experimental, and numerical techniques for the analysis and/or measurement of stress and/or strain, or studies of relevant material properties and failure modes. Our international Editorial Board contains experts in all of these fields and is keen to encourage papers on novel techniques and innovative applications." Professor Eann Patterson - University of Liverpool, UK This journal is a member of the Committee on Publication Ethics (COPE).