Experimental measurements of stress in an Acoustic Black Hole using a laser doppler vibrometer
Experimental measurements of stress in an Acoustic Black Hole using a laser doppler vibrometer
Acoustic Black Holes (ABHs) make use of modifications to a structure to effectively decrease the structural wavespeed, thus increasing the effect of damping material applied in the ABH taper region, resulting in greater vibration attenuation. The most common way in which this is implemented is by gradually reducing the thickness of the structure over a finite interval, to a very thin tip. The focusing effect of the ABH results in high amplitude vibrations occurring in the thin part of the structure, resulting in high stresses and raising significant concerns about fatigue life. This paper presents an experimental assessment of stress in the taper section of an ABH used to terminate a uniform beam, using laser doppler vibrometer measurements to avoid the mass loading associated with accelerometers or strain gauges. A calculation of stress using Euler-Bernoulli beam theory is then presented, and the validity of this approach is assessed for a thick damping layer applied to a thin structure. A comparison is then made to predictions from a numerical model, in order to validate the results from the experimental measurements.
Acoustical Society of America
Keys, Archie
be052521-bf0f-40c7-8e30-50deba927618
Cheer, Jordan
8e452f50-4c7d-4d4e-913a-34015e99b9dc
29 April 2024
Keys, Archie
be052521-bf0f-40c7-8e30-50deba927618
Cheer, Jordan
8e452f50-4c7d-4d4e-913a-34015e99b9dc
Keys, Archie and Cheer, Jordan
(2024)
Experimental measurements of stress in an Acoustic Black Hole using a laser doppler vibrometer.
In Proceedings of Meetings on Acoustics.
vol. 52,
Acoustical Society of America.
8 pp
.
(doi:10.1121/2.0001829).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Acoustic Black Holes (ABHs) make use of modifications to a structure to effectively decrease the structural wavespeed, thus increasing the effect of damping material applied in the ABH taper region, resulting in greater vibration attenuation. The most common way in which this is implemented is by gradually reducing the thickness of the structure over a finite interval, to a very thin tip. The focusing effect of the ABH results in high amplitude vibrations occurring in the thin part of the structure, resulting in high stresses and raising significant concerns about fatigue life. This paper presents an experimental assessment of stress in the taper section of an ABH used to terminate a uniform beam, using laser doppler vibrometer measurements to avoid the mass loading associated with accelerometers or strain gauges. A calculation of stress using Euler-Bernoulli beam theory is then presented, and the validity of this approach is assessed for a thick damping layer applied to a thin structure. A comparison is then made to predictions from a numerical model, in order to validate the results from the experimental measurements.
Text
Experimental measurements of stress in an Acoustic Black Hole using a laser doppler vibrometer
- Accepted Manuscript
More information
Accepted/In Press date: 1 February 2024
Published date: 29 April 2024
Identifiers
Local EPrints ID: 489920
URI: http://eprints.soton.ac.uk/id/eprint/489920
ISSN: 1939-800X
PURE UUID: ff54846a-8cbc-4671-940b-9d465a1debef
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Date deposited: 07 May 2024 16:52
Last modified: 08 May 2024 01:43
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Author:
Archie Keys
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