Active vibration control of a doubly-curved shell with a laminated polyvinylidene fluoride actuator
Active vibration control of a doubly-curved shell with a laminated polyvinylidene fluoride actuator
The main objectives of this study are to establish a mechanical model of a double-curved shell partially covered by a laminated polyvinylidene fluoride actuator (LPA) and demonstrate its use in active control. The dynamic equations of a shallow shell with a much smaller LPA attached are derived first; The optimal position and dimensions of an LPA are then determined, based on formulae for the control forces derived. For an example of a shallow shell, significant control effect is obtained for frequencies below 2 KHz when a 4-layer LPA with optimized dimensions is adopted; The control effects of LPAs with different numbers of polyvinylidene fluoride (PVDF) layers are then explored, including with the results when the LPA at different positions and with different dimensions. The results indicate that a multi-layered LPA can control the vibration of a double-curved shell significantly with low control voltages and has advantages over point force actuators; The optimization approaches for the dimensions of the LPA and its position are practical and efficient.
active vibration control, double-curved shells, control forces, laminated pvdf actuator
199-219
Zhang, Y.
f812509d-2a3c-41aa-8ba1-68210952d5a6
Elliott, S.J.
721dc55c-8c3e-4895-b9c4-82f62abd3567
Zhang, X.
3056a795-80f7-4bbd-9c75-ecbc93085421
Nourzad, D.S.
aee368d3-4e22-443c-9e11-05aaab325c55
2012
Zhang, Y.
f812509d-2a3c-41aa-8ba1-68210952d5a6
Elliott, S.J.
721dc55c-8c3e-4895-b9c4-82f62abd3567
Zhang, X.
3056a795-80f7-4bbd-9c75-ecbc93085421
Nourzad, D.S.
aee368d3-4e22-443c-9e11-05aaab325c55
Zhang, Y., Elliott, S.J., Zhang, X. and Nourzad, D.S.
(2012)
Active vibration control of a doubly-curved shell with a laminated polyvinylidene fluoride actuator.
International Journal of Aerospace and Lightweight Structures, 2 (2), .
(doi:10.3850/S2010428612000335).
Abstract
The main objectives of this study are to establish a mechanical model of a double-curved shell partially covered by a laminated polyvinylidene fluoride actuator (LPA) and demonstrate its use in active control. The dynamic equations of a shallow shell with a much smaller LPA attached are derived first; The optimal position and dimensions of an LPA are then determined, based on formulae for the control forces derived. For an example of a shallow shell, significant control effect is obtained for frequencies below 2 KHz when a 4-layer LPA with optimized dimensions is adopted; The control effects of LPAs with different numbers of polyvinylidene fluoride (PVDF) layers are then explored, including with the results when the LPA at different positions and with different dimensions. The results indicate that a multi-layered LPA can control the vibration of a double-curved shell significantly with low control voltages and has advantages over point force actuators; The optimization approaches for the dimensions of the LPA and its position are practical and efficient.
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Published date: 2012
Keywords:
active vibration control, double-curved shells, control forces, laminated pvdf actuator
Organisations:
Signal Processing & Control Grp, Aerodynamics & Flight Mechanics Group
Identifiers
Local EPrints ID: 348722
URI: http://eprints.soton.ac.uk/id/eprint/348722
ISSN: 2010-4286
PURE UUID: 9dec2da4-d386-4f74-b1a1-76f260c975c2
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Date deposited: 18 Feb 2013 14:25
Last modified: 14 Mar 2024 13:03
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Contributors
Author:
Y. Zhang
Author:
X. Zhang
Author:
D.S. Nourzad
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