S.S. Law scite author profile

A new method for crack identification of bridge beam structures under a moving load based on wavelet analysis is presented. Crack is modeled through rotational springs whose compliance is evaluated using linear elastic fracture mechanics. Dynamic behavior of the cracked beam subject to moving load is analyzed using mode superposition. The response obtained at a single measuring point is analyzed using continuous wavelet transform and the location of the cracks is estimated. The locations of the cracks are determined from the sudden changes in the spatial variation of the transform responses. To estimate the relative depth of the cracks, a damage factor is established which relates the size of the cracks to the coefficients of the wavelet transform. The proposed method is validated by both simulation and experiment. Locations of multiple damages can be located accurately, and the results are not sensitive to measurement noise, speed and magnitude of moving load, measuring location, etc.

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Moving Force Identification: A Time Domain Method

Law

Chan

Zeng

1997

Journal of Sound and Vibration

248

122

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Damage Localization by Directly Using Incomplete Mode Shapes

2000

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Damage localization in plate structures from uniform load surface curvature

Law

2004

Journal of Sound and Vibration

140

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Innovative Bridge Condition Assessment from Dynamic Response of a Passing Vehicle

2006

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S.S. Law

Closure to “Structural Damage Detection from Modal Strain Energy Change” by Z. Y. Shi, S. S. Law, and L. M. Zhang

Structural Damage Detection from Modal Strain Energy Change

Structural Damage Localization From Modal Strain Energy Change

Wavelet-based crack identification of bridge beam from operational deflection time history

Moving Force Identification: A Time Domain Method

Damage Localization by Directly Using Incomplete Mode Shapes

Damage localization in plate structures from uniform load surface curvature

Innovative Bridge Condition Assessment from Dynamic Response of a Passing Vehicle

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