Acoustic emission localization in beams based on time reversed dispersion |
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Authors: | R. Ernst J. Dual |
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Affiliation: | Institute of Mechanical Systems, Swiss Federal Institute of Technology, ETH Zurich, Switzerland |
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Abstract: | The common approach for the localization of acoustic emission sources in beams requires at least two measurements at different positions on the structure. The acoustic emission event is then located by evaluating the difference of the arrival times of the elastic waves. Here a new method is introduced, which allows the detection and localization of multiple acoustic emission sources with only a single, one point, unidirectional measurement. The method makes use of the time reversal principle and the dispersive behavior of the flexural wave mode. Whereas time-of-arrival (TOA) methods struggle with the distortion of elastic waves due to phase dispersion, the method presented uses the dispersive behavior of guided waves to locate the origin of the acoustic emission event. Therefore, the localization algorithm depends solely on the measured wave form and not on arrival time estimation. The method combines an acoustic emission experiment with a numerical simulation, in which the measured and time reversed displacement history is set as the boundary condition. |
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Keywords: | Acoustic emission Source detection Time reversal Guided wave Timoshenko beam |
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