Sweeping tuneable vibration absorbers for low-mid frequencies vibration control
Sweeping tuneable vibration absorbers for low-mid frequencies vibration control
This paper presents a simulation study concerning the low-mid frequencies control of flexural vibration in a lightly damped thin plate, which is equipped with three sweeping tuneable vibration absorbers and is excited by a rain on the roof broad frequency band stationary disturbance. The sweeping tuneable vibration absorbers are semi-active mass-spring-dashpot systems whose stiffness and damping properties can be varied uniformly within given ranges. They are operated in such a way as their characteristic natural frequencies are continuously varied to control the response of flexural modes that resonate within given frequency bands. More specifically, in this study the three sweeping tuneable vibration absorbers are operated asynchronously, each within one of three sequential frequency bands comprised between 20 and 120, 120 and 220, 220 and 320 Hz. The flexural vibration control effects produced by the three sweeping tuneable vibration absorbers are compared to those produced by three classical tuneable vibration absorbers, each set to control the response of a specific flexural mode of the plate resonating in one of these three frequency bands. The study shows that the proposed sweeping tuneable vibration absorbers outperform the classical tuneable vibration absorbers and produce about 6, 5, 4 dB reduction of the plate overall flexural response in the three frequency bands of operation. Also, the study indicates that the sweeping tuneable vibration absorbers are robust to variations in the plate flexural response. For instance they still produce about 5.1, 5.3, 4.6 dB reductions of the flexural response in the three frequency bands of operation when the plate is tensioned such that the flexural natural frequencies are shifted up from about 40 percent, for the first resonance, to 7 percent, for the tenth resonance.
1-12
Gardonio, Paolo
40a5b68b-8c64-4582-806a-dd0759262ad8
Zilletti, Michele
a36b24f0-e4ce-4bdd-abc7-c1f1e9c154a2
13 October 2015
Gardonio, Paolo
40a5b68b-8c64-4582-806a-dd0759262ad8
Zilletti, Michele
a36b24f0-e4ce-4bdd-abc7-c1f1e9c154a2
Gardonio, Paolo and Zilletti, Michele
(2015)
Sweeping tuneable vibration absorbers for low-mid frequencies vibration control.
Journal of Sound and Vibration, 354, .
(doi:10.1016/j.jsv.2015.05.024).
Abstract
This paper presents a simulation study concerning the low-mid frequencies control of flexural vibration in a lightly damped thin plate, which is equipped with three sweeping tuneable vibration absorbers and is excited by a rain on the roof broad frequency band stationary disturbance. The sweeping tuneable vibration absorbers are semi-active mass-spring-dashpot systems whose stiffness and damping properties can be varied uniformly within given ranges. They are operated in such a way as their characteristic natural frequencies are continuously varied to control the response of flexural modes that resonate within given frequency bands. More specifically, in this study the three sweeping tuneable vibration absorbers are operated asynchronously, each within one of three sequential frequency bands comprised between 20 and 120, 120 and 220, 220 and 320 Hz. The flexural vibration control effects produced by the three sweeping tuneable vibration absorbers are compared to those produced by three classical tuneable vibration absorbers, each set to control the response of a specific flexural mode of the plate resonating in one of these three frequency bands. The study shows that the proposed sweeping tuneable vibration absorbers outperform the classical tuneable vibration absorbers and produce about 6, 5, 4 dB reduction of the plate overall flexural response in the three frequency bands of operation. Also, the study indicates that the sweeping tuneable vibration absorbers are robust to variations in the plate flexural response. For instance they still produce about 5.1, 5.3, 4.6 dB reductions of the flexural response in the three frequency bands of operation when the plate is tensioned such that the flexural natural frequencies are shifted up from about 40 percent, for the first resonance, to 7 percent, for the tenth resonance.
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Accepted/In Press date: 12 May 2015
e-pub ahead of print date: 23 June 2015
Published date: 13 October 2015
Organisations:
Inst. Sound & Vibration Research
Identifiers
Local EPrints ID: 385184
URI: http://eprints.soton.ac.uk/id/eprint/385184
ISSN: 0022-460X
PURE UUID: b83c9aa1-c28a-40af-8171-891b6668f20b
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Date deposited: 18 Jan 2016 11:19
Last modified: 14 Mar 2024 22:11
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Author:
Paolo Gardonio
Author:
Michele Zilletti
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