Optimum design of electromechanical vibration isolators
Optimum design of electromechanical vibration isolators
Conventional vibration isolators have been used for a long time to isolate a receiver from a source of disturbance. Probably, the most popular example of vibration isolators can be found in automotive suspensions. In vehicles, the spring and damper elements are used to damp road vibration and also to maintain drive handling stability. In this process, the mechanical energy is converted into heat and dissipated in the damper element. The idea of recovering part of the energy has become an attractive topic among researchers over the last three decades. In this context, this study investigates the possibility of replacing the damper element with an electrical circuit coupled to the mechanic system using a permanent magnet/coil transducer. Different electrical circuit configurations are analyzed to study the influence of damping on the mechanical system. Expressions to obtain critical damping and optimum damping to reduce the maximum peak in the frequency response are developed and presented in tabular form for ease of reference. The methodology is then applied to a two-degree-of-freedom system representing a quarter-vehicle suspension model. The results show that coupled electrical circuits can be used to replace fluid dampers in the design of vibration isolators without performance loss.
Kuhnert, Willian Minnemann
93549e29-c564-4616-943a-6a5459aca9a7
Cammarano, Andrea
c0c85f55-3dfc-4b97-9b79-e2554406a12b
Silveira, Marcos
1577d4e5-cb17-4f23-ba48-352be67def62
Gonçalves, Paulo José Paupitz
d542fc81-64c8-469a-b3b3-32003a90bf86
8 January 2021
Kuhnert, Willian Minnemann
93549e29-c564-4616-943a-6a5459aca9a7
Cammarano, Andrea
c0c85f55-3dfc-4b97-9b79-e2554406a12b
Silveira, Marcos
1577d4e5-cb17-4f23-ba48-352be67def62
Gonçalves, Paulo José Paupitz
d542fc81-64c8-469a-b3b3-32003a90bf86
Kuhnert, Willian Minnemann, Cammarano, Andrea, Silveira, Marcos and Gonçalves, Paulo José Paupitz
(2021)
Optimum design of electromechanical vibration isolators.
Journal of Vibration and Control, 27 (1-2).
(doi:10.1177/1077546320925362).
Abstract
Conventional vibration isolators have been used for a long time to isolate a receiver from a source of disturbance. Probably, the most popular example of vibration isolators can be found in automotive suspensions. In vehicles, the spring and damper elements are used to damp road vibration and also to maintain drive handling stability. In this process, the mechanical energy is converted into heat and dissipated in the damper element. The idea of recovering part of the energy has become an attractive topic among researchers over the last three decades. In this context, this study investigates the possibility of replacing the damper element with an electrical circuit coupled to the mechanic system using a permanent magnet/coil transducer. Different electrical circuit configurations are analyzed to study the influence of damping on the mechanical system. Expressions to obtain critical damping and optimum damping to reduce the maximum peak in the frequency response are developed and presented in tabular form for ease of reference. The methodology is then applied to a two-degree-of-freedom system representing a quarter-vehicle suspension model. The results show that coupled electrical circuits can be used to replace fluid dampers in the design of vibration isolators without performance loss.
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Accepted/In Press date: 27 March 2020
e-pub ahead of print date: 8 May 2020
Published date: 8 January 2021
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Local EPrints ID: 491057
URI: http://eprints.soton.ac.uk/id/eprint/491057
ISSN: 1077-5463
PURE UUID: ae305dae-bdfc-46e6-9f46-c2efa5e68c92
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Date deposited: 11 Jun 2024 16:49
Last modified: 12 Jun 2024 02:11
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Author:
Willian Minnemann Kuhnert
Author:
Andrea Cammarano
Author:
Marcos Silveira
Author:
Paulo José Paupitz Gonçalves
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