Active detection of small imperfections in structures with cyclic symmetry
Active detection of small imperfections in structures with cyclic symmetry
Structures possessing cyclic symmetry such as turbine bladed disks, ultrasonic motors, and toothed gear wheels can experience elevated vibration levels when small deviations from circumferential periodicity exist. Detection of these perturbations via classical system identification approaches is time-consuming, indirect, and exhibits low sensitivity to defects and are affected by measurement noise. The present work utilizes low-level forces that automatically lock onto a weighted rotating projection of the system modes at resonance frequency to enhance the detectability of small structural imperfections. The spatial localization of defects is exploited to identify multiple, localized, isolated defects' locations. The defects' severities are estimated based on the deviation from the circular structure's analytical mode shapes. Fast and enhanced precision of defect identification is obtained by employing the modal filtered Autoresonance technique. To validate the presented method, an experimental system consisting of a ring of coupled Helmholtz acoustic resonators was developed. Experimental results show good agreement with numerical simulations, verifying the method's capabilities to identify the location and severity of multiple defects. Thus, implementation of the suggested method provides fast and precise structural health monitoring of cyclic symmetric systems.
Baruch, Eyal
053b8703-bd09-467e-a2be-1783947c22bb
Vered, Yoav
c13938de-457b-4e25-b57b-7471c7bc832a
Plat, Harel
f01fb781-cdc2-44cb-9429-457408c3eb9b
Bucher, Izhak
53f51e1b-46cb-45f6-b812-14cc3a0be938
22 January 2021
Baruch, Eyal
053b8703-bd09-467e-a2be-1783947c22bb
Vered, Yoav
c13938de-457b-4e25-b57b-7471c7bc832a
Plat, Harel
f01fb781-cdc2-44cb-9429-457408c3eb9b
Bucher, Izhak
53f51e1b-46cb-45f6-b812-14cc3a0be938
Baruch, Eyal, Vered, Yoav, Plat, Harel and Bucher, Izhak
(2021)
Active detection of small imperfections in structures with cyclic symmetry.
Journal of Vibration and Acoustics, 143 (5), [051009].
(doi:10.1115/1.4049384).
Abstract
Structures possessing cyclic symmetry such as turbine bladed disks, ultrasonic motors, and toothed gear wheels can experience elevated vibration levels when small deviations from circumferential periodicity exist. Detection of these perturbations via classical system identification approaches is time-consuming, indirect, and exhibits low sensitivity to defects and are affected by measurement noise. The present work utilizes low-level forces that automatically lock onto a weighted rotating projection of the system modes at resonance frequency to enhance the detectability of small structural imperfections. The spatial localization of defects is exploited to identify multiple, localized, isolated defects' locations. The defects' severities are estimated based on the deviation from the circular structure's analytical mode shapes. Fast and enhanced precision of defect identification is obtained by employing the modal filtered Autoresonance technique. To validate the presented method, an experimental system consisting of a ring of coupled Helmholtz acoustic resonators was developed. Experimental results show good agreement with numerical simulations, verifying the method's capabilities to identify the location and severity of multiple defects. Thus, implementation of the suggested method provides fast and precise structural health monitoring of cyclic symmetric systems.
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Accepted/In Press date: 11 December 2020
e-pub ahead of print date: 17 December 2020
Published date: 22 January 2021
Identifiers
Local EPrints ID: 457136
URI: http://eprints.soton.ac.uk/id/eprint/457136
ISSN: 1048-9002
PURE UUID: d4246441-0046-4d2f-8c83-d569c182d8d8
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Date deposited: 24 May 2022 16:58
Last modified: 16 Mar 2024 17:19
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Author:
Eyal Baruch
Author:
Yoav Vered
Author:
Harel Plat
Author:
Izhak Bucher
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