Experimental characterization of a nonlinear vibration
absorber using free vibration
Experimental characterization of a nonlinear vibration
absorber using free vibration
Knowledge of the nonlinear characteristics of a vibration absorber is important if its performance is to be predicted accurately when connected to a host structure. This can be
achieved theoretically, but experimental validation is necessary to verify the modelling procedure and assumptions. This paper describes the characterization of such an absorber using a novel experimental procedure. The estimation method is based on a free vibration test, which is appropriate for a lightly damped device. The nonlinear absorber is attached to shaker which is operated such that the shaker works in its mass-controlled regime,
which means that the shaker dynamics, which are also included in the measurement, are considerably simplified, which facilitates a simple estimation of the absorber properties. From the free vibration time history, the instantaneous amplitude and instantaneous damped natural frequency are estimated using the Hilbert transform. The stiffness and damping of the nonlinear vibration absorber are then estimated from these quantities.
The results are compared with an analytical solution for the free vibration of the nonlinear system with cubic stiffness and viscous damping, which is also derived in the paper using an alternative approach to the conventional perturbation methods. To further verify the
approach, the results are compared with a method in which the internal forces are balanced at each measured instant in time.
nonlinear vibration absorber, fee vibration, cubic stiffness, envelope, instantaneous damped natural frequency
1-11
Tang, B.
08b370d0-e3a0-4a7e-b907-a11f33c6f0f2
Brennan, M.J.
7f39b4f4-810d-49d5-be90-1656c7b8069a
Gatti, G.
04aa0da6-dff8-4094-a265-57c7253e74dd
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
Tang, B.
08b370d0-e3a0-4a7e-b907-a11f33c6f0f2
Brennan, M.J.
7f39b4f4-810d-49d5-be90-1656c7b8069a
Gatti, G.
04aa0da6-dff8-4094-a265-57c7253e74dd
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
Tang, B., Brennan, M.J., Gatti, G. and Ferguson, N.S.
(2016)
Experimental characterization of a nonlinear vibration
absorber using free vibration.
Journal of Sound and Vibration, .
(doi:10.1016/j.jsv.2015.12.040).
Abstract
Knowledge of the nonlinear characteristics of a vibration absorber is important if its performance is to be predicted accurately when connected to a host structure. This can be
achieved theoretically, but experimental validation is necessary to verify the modelling procedure and assumptions. This paper describes the characterization of such an absorber using a novel experimental procedure. The estimation method is based on a free vibration test, which is appropriate for a lightly damped device. The nonlinear absorber is attached to shaker which is operated such that the shaker works in its mass-controlled regime,
which means that the shaker dynamics, which are also included in the measurement, are considerably simplified, which facilitates a simple estimation of the absorber properties. From the free vibration time history, the instantaneous amplitude and instantaneous damped natural frequency are estimated using the Hilbert transform. The stiffness and damping of the nonlinear vibration absorber are then estimated from these quantities.
The results are compared with an analytical solution for the free vibration of the nonlinear system with cubic stiffness and viscous damping, which is also derived in the paper using an alternative approach to the conventional perturbation methods. To further verify the
approach, the results are compared with a method in which the internal forces are balanced at each measured instant in time.
Text
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More information
Accepted/In Press date: 18 December 2015
e-pub ahead of print date: 14 January 2016
Keywords:
nonlinear vibration absorber, fee vibration, cubic stiffness, envelope, instantaneous damped natural frequency
Organisations:
Dynamics Group
Identifiers
Local EPrints ID: 385549
URI: http://eprints.soton.ac.uk/id/eprint/385549
ISSN: 0022-460X
PURE UUID: 850fca7d-c394-4396-b021-4dd5ca1105a4
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Date deposited: 20 Jan 2016 13:52
Last modified: 15 Mar 2024 05:23
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Contributors
Author:
B. Tang
Author:
M.J. Brennan
Author:
G. Gatti
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