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Bibliographic Details
Main Authors: Köhler, Bernd, Takahashi, Kanta, Nakahata, Kazuyuki
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2309.15198
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author Köhler, Bernd
Takahashi, Kanta
Nakahata, Kazuyuki
author_facet Köhler, Bernd
Takahashi, Kanta
Nakahata, Kazuyuki
contents The motion visualization in a structural component was studied for defect detection. Elastic motions were excited by hammer impacts at multiple points and received by an accelerometer at a fixed point. Reciprocity in elastodynamics is only valid under certain conditions. Its validity under given experimental conditions was derived from the elastodynamic reciprocity theorem. Based on this, the dynamic motion of the structural component was obtained for fixed-point excitation from measurements performed using multipoint excitations. In the visualized eigenmodes, significant additional deformation was observed at the wall thinning inserted as an artificial defect. To prevent the dependence of defect detection on its position within the mode shape, another approach was proposed based on the extraction of guided wave modes immediately after impact excitation. It is shown that this maximum intensity projection method works well in detecting defects.
format Preprint
id arxiv_https___arxiv_org_abs_2309_15198
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Application of reciprocity for facilitation of wave field visualization and defect detection
Köhler, Bernd
Takahashi, Kanta
Nakahata, Kazuyuki
Signal Processing
Systems and Control
The motion visualization in a structural component was studied for defect detection. Elastic motions were excited by hammer impacts at multiple points and received by an accelerometer at a fixed point. Reciprocity in elastodynamics is only valid under certain conditions. Its validity under given experimental conditions was derived from the elastodynamic reciprocity theorem. Based on this, the dynamic motion of the structural component was obtained for fixed-point excitation from measurements performed using multipoint excitations. In the visualized eigenmodes, significant additional deformation was observed at the wall thinning inserted as an artificial defect. To prevent the dependence of defect detection on its position within the mode shape, another approach was proposed based on the extraction of guided wave modes immediately after impact excitation. It is shown that this maximum intensity projection method works well in detecting defects.
title Application of reciprocity for facilitation of wave field visualization and defect detection
topic Signal Processing
Systems and Control
url https://arxiv.org/abs/2309.15198