作者:刘长军, 许子圣, 朱武军, 项延训
作者单位:华东理工大学,上海 200237
关键词:非线性超声;兰姆波;静态分量;疲劳微裂纹
摘要:
为定量表征板状金属结构中的疲劳微裂纹扩展状态,采用非线性超声兰姆波静态分量方法,对含不同长度疲劳微裂纹的金属结构进行检测。实验采用低频超声换能器间接接收非线性兰姆波静态分量信号并进行时频域分析,获得非线性参数随微裂纹长度的变化趋势,并分析不同模式基频兰姆波生成的静态分量对疲劳微裂纹的敏感性。通过仿真模拟进一步分析非线性兰姆波静态分量的生成机制。结果表明:微裂纹的张开和闭合对兰姆波起调制作用,引起静态分量的生成;非线性参数随疲劳微裂纹扩展单调增加,S3和S1模式基频兰姆波生成静态分量的非线性参数分别增长到313%和201%;S3模式基频兰姆波生成的静态分量对疲劳微裂纹扩展相比S1模式更加敏感。该研究可证明采用非线性兰姆波静态分量方法检测金属结构疲劳微裂纹的有效性。
Nonlinear Lamb wave static component method for fatigue microcracks detection
LIU Changjun, XU Zisheng, ZHU Wujun, XIANG Yanxun
East China University of Science and Technology, Shanghai 200237, China
Abstract: To quantitatively characterize the fatigue microcrack propagation in metal structures, a nonlinear Lamb wave method is presented to detect specimens with fatigue microcracks using the static component. A low frequency ultrasonic transducer was used to indirectly receive the static component signals. Time-frequency domain analyses were carried out to obtain the nonlinear ultrasonic parameter for microcracks with various lengths. The sensitivity of static components to fatigue microcrack was then analyzed for two fundamental Lamb modes. Finite element simulations were further performed to investigate the generation mechanism of static components. The results show that the static component could be effectively generated due to the modulation of the opening and closing process of the microcracks. With the propagation of fatigue microcracks, the nonlinear ultrasonic parameter increases monotonically to 313% and 201% for the fundamental S3 and S1 modes, respectively, which illustrates that the static component generated by the fundamental S3 mode is more sensitive to fatigue microcrack than the fundamental S1 mode. This investigation demonstrated the effectiveness of the static component-based method for detecting fatigue microcracks in metal structures.
Keywords: nonlinear ultrasound;Lamb wave;static component;fatigue microcrack
2022, 48(2):8-13 收稿日期: 2020-12-27;收到修改稿日期: 2021-02-04
基金项目: 国家自然科学基金资助项目(12004114);博士后基金资助项目(2020M671015)
作者简介: 刘长军(1972-),男,上海市人,教授,博士,主要从事压力容器和管道的安全检测和评价技术研究
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