Abstract
Structural damage identification technology is of great significance to improve the reliability and safety of civil structures and has attracted much attention in the study of structural health monitoring. In this paper, a novel structural damage identification method based on transmissibility in the time domain is proposed. The method takes the discrepancy of transmissibility of structure response in the time domain before and after damage as the basis of finite element model updating. The damage is located and quantified through iteration by minimizing the difference between the measurements at gauge locations and the reconstruction response extrapolated by the finite element model. Taking advantage of the response reconstruction method based on empirical mode decomposition, damage information can be obtained in the absence of prior knowledge on excitation. Moreover, this method directly collects time-domain data for identification without modal identification and frequent time–frequency conversion, which can greatly improve efficiency on the premise of ensuring accuracy. A numerical example is used to demonstrate the overall damage identification method, and the study of measurement noise shows that the method has strong robustness. Finally, the present work investigates the method through a simply supported overhanging beam. The experiments collect the vibration strain signals of the beam via resistance strain gauges. The comparison between identification results and theoretical values shows the effectiveness and accuracy of the method.
Highlights
Civil structures are faced with structural aging, adverse environmental impacts and other problems during operation, which will affect the safety and durability of the structure.Structural health monitoring has received attention [1,2,3]
The structural response reconstruction method based on empirical mode decomposition (EMD) in the time domain [28,29,30] has proven to be a very efficient method in terms of computational cost and is very suitable for various dynamic response reconstructions based on the different types of sensor measurements
In this paper, combined with response reconstruction based on EMD, a kind of damage identification method based on transmissibility in the time domain is proposed
Summary
Civil structures are faced with structural aging, adverse environmental impacts and other problems during operation, which will affect the safety and durability of the structure. The structural response reconstruction method based on empirical mode decomposition (EMD) in the time domain [28,29,30] has proven to be a very efficient method in terms of computational cost and is very suitable for various dynamic response reconstructions based on the different types of sensor measurements. This method does not need to take time–frequency conversion for the response signal. In this paper, combined with response reconstruction based on EMD, a kind of damage identification method based on transmissibility in the time domain is proposed. It should be noted that the calculation of the response here only operates on the same mode response
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