Identification of crack locations and depths in a multi-cracks beam by using local adaptive differential quadrature method

Lee Lin-Tsang; Wu Jiun-Yu

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Identification of crack locations and depths in a multi-cracks beam by using local adaptive differential quadrature method

机译：基于局部自适应差分正交方法的多裂纹梁裂纹位置和深度识别

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In this article, we propose a new simplified sectional flexibility method to simulate multi-cracks in a beam. The crack is considered as a line spring model which is related to the ratio of crack depth to the beam height (a/h). The transfer matrix method was derived and employed to construct the eigenvalue system. The local adaptive differential quadrature method was applied to evaluate the natural frequencies of cracked beams. The results of natural frequencies are in excellent agreement with literature results. For identification of multiple cracks in a beam, the Newton-Raphson iteration method was applied to predict the locations and depths of cracks. Numerical results were compared with results of other investigators and this method was found to be more accurate.

机译：在本文中，我们提出了一种新的简化的截面柔性方法来模拟梁中的多裂纹。裂纹被认为是线弹簧模型，它与裂纹深度与梁高之比（a / h）有关。推导了传递矩阵方法，并将其用于构建特征值系统。应用局部自适应差分正交方法评估裂纹梁的固有频率。固有频率的结果与文献结果非常吻合。为了识别梁中的多个裂纹，牛顿-拉夫森迭代法用于预测裂纹的位置和深度。将数值结果与其他研究人员的结果进行比较，发现该方法更准确。

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《Proceedings of the Institution of Mechanical Engineers, Part E. Journal of Process Mechanical Engineering》 |2015年第4期|共13页
作者
Lee Lin-Tsang; Wu Jiun-Yu;
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正文语种 eng
中图分类机械制造工艺;
关键词
Local adaptive differential quadrature method; multi-cracks; line spring model;

机译：局部自适应微分正交方法;多裂纹;线弹簧模型;

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1. Identification of crack locations and depths in a multi-cracks beam by using local adaptive differential quadrature method [J] . Lee Lin-Tsang, Wu Jiun-Yu Proceedings of the Institution of Mechanical Engineers, Part E. Journal of Process Mechanical Engineering . 2015,第4期

机译：基于局部自适应差分正交方法的多裂纹梁裂纹位置和深度识别
2. An adaptive differential quadrature element method for large deformation contact problems involving curved beams with a finite number of contact points [J] . Yu-Jia Hu, Ming Liu, Weidong Zhu, International Journal of Solids and Structures . 2017,第期

机译：一种自适应差分正交元素，用于大变形接触问题涉及具有有限次数的弯曲梁的弯曲梁
3. A method for determining the location and depth of cracks in double-cracked beams [J] . E. Douka, G. Bamnios, A. Trochidis Applied Acoustics . 2004,第10期

机译：确定双裂纹梁裂纹位置和深度的方法
4. Crack Detection in a Beam on Elastic Foundation Using Differential Quadrature Method and the Bees Algorithm Optimization [C] . R. Khademi Zahedi, P. Alimouri, Hung Nguyen-Xuan, International Conference on Advances in Computational Mechanics . 2018

机译：差分正交方法和蜜蜂算法优化弹性基础梁裂纹检测
5. Identification of magnitudes and locations of loads on slender beams using strain gage based methods with application to portable army bridges. [D] . Bednarz, Edward Theodore, III. 2012

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6. Free vibration of a piezoelectric nanobeam resting on nonlinear Winkler-Pasternak foundation by quadrature methods [O] . Ola Ragb, Mokhtar Mohamed, M.S. Matbuly 2019

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7. IDENTIFICATION OF MULTI-CRACKS IN THE GATE ROTOR SHAFT BASED ON THE WAVELET FINITE ELEMENT METHOD [O] . Bin Zhao 2013

机译：基于小波有限元法的门转子轴多裂纹识别
8. Local-Mesh, Local-Order, Adaptive Finite Element Methods with a Posteriori Error Estimators for Elliptic Partial Differential Equations [R] . Weiser, A. 1981

机译：椭圆偏微分方程的局部网格，局部有序，自适应有限元方法及后验误差估计

Identification of crack locations and depths in a multi-cracks beam by using local adaptive differential quadrature method

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