An investigation of structural stress in active acoustic black holes
An investigation of structural stress in active acoustic black holes
Acoustic Black Holes (ABHs) are structural features that enable a notable level of vibration control by introducing a spatial variation in either the thickness or material properites of a structure, leading to a significant reduction in the wave speed and resultingly an increase in the efficiency of an applied damping treatment. There are two key potential limitations associated with ABHs – firstly, due to the focusing of structural waves into the ABH feature they can increase the structural stresses; and secondly, their performance at low frequencies is limited by the size of the ABH feature. It has previously been shown that through the integration of active control it is possible to enhance the lowfrequency performance of ABHs, however, the effect that this has on the resulting stress has not been previously explored. This paper presents an investigation into the change in structural stress due to the integration of active control into an ABH terminated beam. A feedforward wave-based controller is utilised, which aims to minimise the wave reflected from the ABH termination using a piezoelectric patch actuator attached to the ABH feature. This demonstrates that a conventional active ABH introduces a significant stress enhancement and, therefore, a modified control strategy is explored in which the stress measured in the ABH is included in the cost function being minimised.
Cheer, Jordan
8e452f50-4c7d-4d4e-913a-34015e99b9dc
Keys, Archie
be052521-bf0f-40c7-8e30-50deba927618
Cheer, Jordan
8e452f50-4c7d-4d4e-913a-34015e99b9dc
Keys, Archie
be052521-bf0f-40c7-8e30-50deba927618
Cheer, Jordan and Keys, Archie
(2025)
An investigation of structural stress in active acoustic black holes.
In SMART 2025: Proceedings of the 11th International Conference on Smart Structures and Materials.
12 pp
.
(In Press)
Record type:
Conference or Workshop Item
(Paper)
Abstract
Acoustic Black Holes (ABHs) are structural features that enable a notable level of vibration control by introducing a spatial variation in either the thickness or material properites of a structure, leading to a significant reduction in the wave speed and resultingly an increase in the efficiency of an applied damping treatment. There are two key potential limitations associated with ABHs – firstly, due to the focusing of structural waves into the ABH feature they can increase the structural stresses; and secondly, their performance at low frequencies is limited by the size of the ABH feature. It has previously been shown that through the integration of active control it is possible to enhance the lowfrequency performance of ABHs, however, the effect that this has on the resulting stress has not been previously explored. This paper presents an investigation into the change in structural stress due to the integration of active control into an ABH terminated beam. A feedforward wave-based controller is utilised, which aims to minimise the wave reflected from the ABH termination using a piezoelectric patch actuator attached to the ABH feature. This demonstrates that a conventional active ABH introduces a significant stress enhancement and, therefore, a modified control strategy is explored in which the stress measured in the ABH is included in the cost function being minimised.
Text
An investigation of structural stress in active acoustic black holes
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Accepted/In Press date: 31 August 2025
Identifiers
Local EPrints ID: 507248
URI: http://eprints.soton.ac.uk/id/eprint/507248
PURE UUID: 4b81cdb8-af10-4afb-801c-cb74ba20aadc
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Date deposited: 02 Dec 2025 18:04
Last modified: 03 Dec 2025 02:43
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Author:
Archie Keys
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