基于谐波响应的梁裂纹检测研究

2004 International Conference on Intelligent Mechatronics and Automation, 2004. Proceedings. Pub Date : 2004-08-26 DOI:10.1109/ICIMA.2004.1384165

Myong-Bom Kim, Mei Zhao

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引用次数: 10

摘要

本文采用扭转弹簧模拟悬臂梁的裂缝，得到了裂缝悬臂梁的近似位移模态和斜率模态。利用近似模态得到了其在单次谐波激励和零初始条件下的位移和斜率响应。结果表明，裂纹悬臂梁的边坡响应在裂纹位置呈阶梯型变化，其对x的偏导数呈峰值型变化。从裂缝悬臂梁的这些动力特性出发，提出了一种基于谐波激励下边坡响应的裂缝检测准则。数值算例和试验结果表明，该准则可以有效地识别裂纹的位置和深度。

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Study on crack detection of beam using harmonic responses

In this paper, a torsional spring is adopted to simulate a crack in a cantilever beam, approximated dispilacement and slope modes of the cracked cantilever beam are obtained. Its displacement and slope responses under single harmonic excitation and zero initial conditions are obtained by using approximated modes. It is shown that slope responses of the cracked cantilever beam has stepping type change at crack location and its partial derivative with respect to x has peak type change. From these dynamiic characteristics of cracked cantilever beam, a crack detection criterion using slope responses under harmonic excitation is proposed. Moreover, numerical examples and experimental results show that the crack location and depth can be identified by proposed criterion.

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2004 International Conference on Intelligent Mechatronics and Automation, 2004. Proceedings.

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