An experimental nonlinear low dynamic stiffness device for shock isolation
An experimental nonlinear low dynamic stiffness device for shock isolation
The problem of shock generated vibration is very common in practice and difficult to isolate due to the high levels of excitation involved and its transient nature. If not properly isolated it could lead to large transmitted forces and displacements. Typically, classical shock isolation relies on the use of passive stiffness elements to absorb energy by deformation and some damping mechanism to dissipate residual vibration. The approach of using nonlinear stiffness elements is explored in this paper, focusing in providing an isolation system with low dynamic stiffness. The possibilities of using such a configuration for a shock mount are studied experimentally following previous theoretical models. The model studied considers electromagnets and permanent magnets in order to obtain nonlinear stiffness forces using different voltage configurations. It is found that the stiffness nonlinearities could be advantageous in improving shock isolation in terms of absolute displacement and acceleration response when compared with linear elastic elements.
1-13
Francisco Ledezma-Ramirez, D.
97f837c0-9f35-4b66-b1cd-cf00a1fffad1
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
Brennan, M.J.
87c7bca3-a9e5-46aa-9153-34c712355a13
Tang, Bin
13169489-4339-48f5-b709-67b509c08f04
Francisco Ledezma-Ramirez, D.
97f837c0-9f35-4b66-b1cd-cf00a1fffad1
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
Brennan, M.J.
87c7bca3-a9e5-46aa-9153-34c712355a13
Tang, Bin
13169489-4339-48f5-b709-67b509c08f04
Francisco Ledezma-Ramirez, D., Ferguson, N.S., Brennan, M.J. and Tang, Bin
(2015)
An experimental nonlinear low dynamic stiffness device for shock isolation.
Journal of Sound and Vibration, 347, .
(doi:10.1016/j.jsv.2015.02.006).
Abstract
The problem of shock generated vibration is very common in practice and difficult to isolate due to the high levels of excitation involved and its transient nature. If not properly isolated it could lead to large transmitted forces and displacements. Typically, classical shock isolation relies on the use of passive stiffness elements to absorb energy by deformation and some damping mechanism to dissipate residual vibration. The approach of using nonlinear stiffness elements is explored in this paper, focusing in providing an isolation system with low dynamic stiffness. The possibilities of using such a configuration for a shock mount are studied experimentally following previous theoretical models. The model studied considers electromagnets and permanent magnets in order to obtain nonlinear stiffness forces using different voltage configurations. It is found that the stiffness nonlinearities could be advantageous in improving shock isolation in terms of absolute displacement and acceleration response when compared with linear elastic elements.
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Accepted/In Press date: 4 February 2015
e-pub ahead of print date: 7 July 2015
Organisations:
Dynamics Group
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Local EPrints ID: 376818
URI: http://eprints.soton.ac.uk/id/eprint/376818
ISSN: 0022-460X
PURE UUID: 41f052d1-ab49-4967-baf8-1538175e9048
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Date deposited: 12 May 2015 14:18
Last modified: 15 Mar 2024 02:34
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Contributors
Author:
D. Francisco Ledezma-Ramirez
Author:
M.J. Brennan
Author:
Bin Tang
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