Damage detection in plate-like structures using High-Order mode shape derivatives

Abdo, Mohamed Abdel-Basset

doi:10.6088/ijcser.00202030009

Cited by 4 publications

(3 citation statements)

References 15 publications

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“…For the damage localization problem, in comparison with mode shapes, the curvature mode shapes are more sensitive to damage and are used more widely 18 . However, due to the noise susceptibility of curvature mode shape estimation, even a small noise level can be significantly amplified by the numerical finite difference method, leading to degradation of the damage localization accuracy 19,20 . To circumvent this problem, statistical methods, smoothing techniques, and wavelet transform methods are commonly adopted to reduce the effects of measurement noise on curvature mode shape estimation 21,22 .…”

Section: Introductionmentioning

confidence: 99%

“…18 However, due to the noise susceptibility of curvature mode shape estimation, even a small noise level can be significantly amplified by the numerical finite difference method, leading to degradation of the damage localization accuracy. 19,20 To circumvent this problem, statistical methods, smoothing techniques, and wavelet transform methods are commonly adopted to reduce the effects of measurement noise on curvature mode shape estimation. 21,22 In this paper, a Gaussian-Laplacian filter is proposed to enhance the noise robustness and accuracy of curvature mode shape estimation.…”

Section: Introductionmentioning

confidence: 99%

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Full‐field out‐of‐plane vibration displacement acquisition based on speckle‐projection digital image correlation and its application in damage localization

Cao

Yan

Nian

et al. 2022

Int Journal of Mech Sys Dyn

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Stereo‐digital image correlation (Stereo‐DIC) has been widely explored for modal analysis in plate‐type structures due to its noncontact and full‐field advantages. However, when the traditional stereo‐DIC is adopted to capture the out‐of‐plane displacements, several challenging issues exist such as the development of surface speckles, asynchronous camera recording, and efficiency and accuracy degradation due to high computation costs. Moreover, with the captured out‐of‐plane displacements, effective and efficient evaluation of the high spatial resolution mode shapes and their application to damage localization are also critical problems. To tackle these issues, a speckle‐projection DIC technique using a single high‐speed camera is proposed to obtain the out‐of‐plane vibration displacements. Moreover, an enhanced peak‐picking modal analysis method is adopted to enhance the estimation accuracy and efficiency of mode shapes. In addition, the low‐rank property of mode shapes in an intact state and the spatial sparse property of damage locations are harnessed for the detection of damage positions without requiring reference data on the healthy state. Finally, the modal analysis and damage localization results based on the proposed speckle‐projection DIC are compared with those of the traditional two‐camera stereo‐DIC technique to verify its feasibility and effectiveness. It is found that the differences in the identified resonant frequencies between these two methods are smaller than 1% for higher modes. Moreover, the proposed speckle‐projection DIC has the same accuracy as the traditional two‐camera stereo‐DIC in terms of measurement accuracy, mode shape estimation, and damage localization.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Full‐field out‐of‐plane vibration displacement acquisition based on speckle‐projection digital image correlation and its application in damage localization

Cao

Yan

Nian

et al. 2022

Int Journal of Mech Sys Dyn

View full text Add to dashboard Cite

show abstract

“…Fourth-order derivatives of the mode shapes were employed to detect and locate the damage in simply supported and cantilever steel-plate model structures but with the drawback of a heightened sensitivity to measurement noise. 20 In the absolute difference mode shape curvature (ADMSC) method, this method is based on the difference between the intact curvature mode shape and the damaged curvature mode shape to detect and locate the damaged location of the beam structure. The limitation of this method is that depends on undamaged modal response of the structure.…”

Section: Introductionmentioning

confidence: 99%

An identification method of the weak link of stiffness for cantilever beam structure

Guo

Cao

et al. 2020

Science Progress

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To find the weak link of the structural stiffness is important to improve machine tool stiffness. However, how to overcome the static deformation with difficulty acquisition is a difficult problem in machine tool structure. The article takes the cantilever beam structure as a numerical example, the weak link is modeled as EA reduction in stiffness. Thorough finite element simulations are performed to assess the robustness and limitations of the method in several scenarios with single and multiple weaknesses. The sensors are used to acquire the acceleration data, the structural modal parameters are obtained by the singular value decomposition technique, and the dynamic characteristics are systematically reconstructed by using the modal state-space method to obtain static stiffness. Then, an identification method proposed by measured data and reconstructed data to identify the weak link of stiffness of the cantilever structure. Furthermore, the comparison of numerical and experimental results validate the correctness and effectiveness of this method. The research has certain practical engineering value and provides an accurate guidance for the optimization of machine tool stiffness.

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Efficiency of Jaya algorithm for solving the optimization-based structural damage identification problem based on a hybrid objective function

Dinh-Cong

Ho-Huu

Vo-Duy

et al. 2017

Engineering Optimization

102

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Damage detection in plate-like structures using High-Order mode shape derivatives

Cited by 4 publications

References 15 publications

Full‐field out‐of‐plane vibration displacement acquisition based on speckle‐projection digital image correlation and its application in damage localization

Full‐field out‐of‐plane vibration displacement acquisition based on speckle‐projection digital image correlation and its application in damage localization

An identification method of the weak link of stiffness for cantilever beam structure

Efficiency of Jaya algorithm for solving the optimization-based structural damage identification problem based on a hybrid objective function

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