An experimental switchable stiffness device for shock
isolation
An experimental switchable stiffness device for shock
isolation
The development of an experimental switching stiffness device for shock isolation is presented. The system uses magnetic forces to exert a restoring force, which results in an effective stiffness that is used to isolate a payload. When the magnetic force is turned on and off, a switchable stiffness is obtained. Characterization of the physical properties of the device is presented. They are estimated in terms of the percentage stiffness change and effective damping ratio when switched between two constant stiffness states. Additionally, the setup is used to implement a control strategy to reduce the shock response and minimize residual vibration. The system was found to be very effective for shock isolation. The response is reduced by around 50 percent compared with passive isolation showing good correlation with theoretical predictions, and the effective damping ratio in the system following the shock was increased from about 4.5 percent to 13 percent.
4987-5001
Ledezma-Ramirez, D.F.
4a39f5b0-dd8e-43df-9082-310c83fb422b
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
Brennan, M.J.
7f39b4f4-810d-49d5-be90-1656c7b8069a
5 November 2012
Ledezma-Ramirez, D.F.
4a39f5b0-dd8e-43df-9082-310c83fb422b
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
Brennan, M.J.
7f39b4f4-810d-49d5-be90-1656c7b8069a
Ledezma-Ramirez, D.F., Ferguson, N.S. and Brennan, M.J.
(2012)
An experimental switchable stiffness device for shock
isolation.
Journal of Sound and Vibration, 331 (23), .
(doi:10.1016/j.jsv.2012.06.010).
Abstract
The development of an experimental switching stiffness device for shock isolation is presented. The system uses magnetic forces to exert a restoring force, which results in an effective stiffness that is used to isolate a payload. When the magnetic force is turned on and off, a switchable stiffness is obtained. Characterization of the physical properties of the device is presented. They are estimated in terms of the percentage stiffness change and effective damping ratio when switched between two constant stiffness states. Additionally, the setup is used to implement a control strategy to reduce the shock response and minimize residual vibration. The system was found to be very effective for shock isolation. The response is reduced by around 50 percent compared with passive isolation showing good correlation with theoretical predictions, and the effective damping ratio in the system following the shock was increased from about 4.5 percent to 13 percent.
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Published date: 5 November 2012
Organisations:
Inst. Sound & Vibration Research
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Local EPrints ID: 352057
URI: http://eprints.soton.ac.uk/id/eprint/352057
ISSN: 0022-460X
PURE UUID: 1540a7d1-18d0-491e-9fed-e18aae2a6d00
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Date deposited: 14 May 2013 13:47
Last modified: 15 Mar 2024 02:34
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Author:
D.F. Ledezma-Ramirez
Author:
M.J. Brennan
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