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A new acoustic emission damage localization method using synchrosqueezed wavelet transforms picker and time-order method

Jingkai Wang, Linsheng Huo, Chunguang Liu, Gangbing Song

2020Structural Health Monitoring26 citationsDOI

Abstract

Acoustic emission technique, as a passive structural health monitoring technique, has been widely applied to detecting and locating the structural damage. The time difference of arrival and the wave velocity are the key factors in most of the acoustic emission localization methods, and the accuracy of these two factors will affect the accuracy of damage localization. To improve the accuracy of damage localization, this article proposes a new damage localization method based on the synchrosqueezed wavelet transform picker and the time-order method. The synchrosqueezed wavelet transform picker, which picks the time–frequency similar point based on time–frequency similarity theory in the low-noise interval of time–frequency matrix, can improve the accuracy and robustness of calculating time difference of arrival. Meanwhile, the time-order method not only measures the wave velocity in real time but also reduces the computing time by appropriately arranging the distribution of acoustic emission sensors. These advantages improve the accuracy and robustness of acoustic emission localization, which was verified by experiments. Furthermore, the new localization method was employed to study the energy distribution in the embedded section of steel bar during the pull-out test of steel bar and concrete, and the results show the types of resistance between steel bar and concrete.

Topics & Concepts

Robustness (evolution)Acoustic emissionAcousticsWavelet transformWaveletStructural health monitoringTime of arrivalComputer scienceBar (unit)Steel barArrival timeTime–frequency analysisContinuous wavelet transformEngineeringDiscrete wavelet transformStructural engineeringArtificial intelligenceTelecommunicationsPhysicsRadarTransport engineeringBiochemistryChemistryMeteorologyGeneWirelessUltrasonics and Acoustic Wave PropagationStructural Health Monitoring TechniquesGeophysical Methods and Applications
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