The experimental response of a broadband base-excited vibration isolator incorporating cubic damping
The experimental response of a broadband base-excited vibration isolator incorporating cubic damping
Structural damping is often assumed to be viscous and linear which leads to comparatively straightforward vibration analysis. In the case of vibration isolation mounts this assumption of linearity is particularly questionable and one might want to know the effect of a nonlinear damping characteristic on the isolation performance. This paper considers the isolation performance of a single degree of freedom system with cubic damping. Previous work has considered the case of harmonic base excitation in which cubic damping is less favourable than linear damping. This work is summarised briefly here and extended to random base motion. The study is predominantly experimental in which cubic damping is realised using simple velocity feedback control. The rig is first described and characterised in its passive state prior to implementing linear and cubic elocity feedback. It is found that, unlike the case of harmonic base excitation, cubic damping offers very similar performance to linear damping. The reason for this difference in behaviour is identified by considering the probability density functions of the response variables.
Panananda, N.
f08b5155-6329-483e-8522-d4559c4a918c
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
Waters, T.P.
348d22f5-dba1-4384-87ac-04fe5d603c2f
8 July 2013
Panananda, N.
f08b5155-6329-483e-8522-d4559c4a918c
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
Waters, T.P.
348d22f5-dba1-4384-87ac-04fe5d603c2f
Panananda, N., Ferguson, N.S. and Waters, T.P.
(2013)
The experimental response of a broadband base-excited vibration isolator incorporating cubic damping.
20th International Congress on Sound and Vibration (ICSV20), Bangkok, Thailand.
07 - 11 Jul 2013.
8 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Structural damping is often assumed to be viscous and linear which leads to comparatively straightforward vibration analysis. In the case of vibration isolation mounts this assumption of linearity is particularly questionable and one might want to know the effect of a nonlinear damping characteristic on the isolation performance. This paper considers the isolation performance of a single degree of freedom system with cubic damping. Previous work has considered the case of harmonic base excitation in which cubic damping is less favourable than linear damping. This work is summarised briefly here and extended to random base motion. The study is predominantly experimental in which cubic damping is realised using simple velocity feedback control. The rig is first described and characterised in its passive state prior to implementing linear and cubic elocity feedback. It is found that, unlike the case of harmonic base excitation, cubic damping offers very similar performance to linear damping. The reason for this difference in behaviour is identified by considering the probability density functions of the response variables.
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ICSV20 The experimental response of a broadband base-excited vibration isolator incorporating cubic damping.pdf
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Published date: 8 July 2013
Venue - Dates:
20th International Congress on Sound and Vibration (ICSV20), Bangkok, Thailand, 2013-07-07 - 2013-07-11
Organisations:
Southampton Education School, Dynamics Group
Identifiers
Local EPrints ID: 355361
URI: http://eprints.soton.ac.uk/id/eprint/355361
PURE UUID: f8131303-25ce-4c09-b29d-c3697168fca3
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Date deposited: 09 Aug 2013 14:04
Last modified: 15 Mar 2024 02:34
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Author:
N. Panananda
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