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Parametrically excited vibrations of the oscillator with strong cubic negative non-linearity

Parametrically excited vibrations of the oscillator with strong cubic negative non-linearity
Parametrically excited vibrations of the oscillator with strong cubic negative non-linearity
In this paper the parametrically excited vibrations of an oscillator with strong cubic negative nonlinearity are analyzed. The two-dimensional Lindstedt–Poincare perturbation technique applied for finding an approximate solution of linear parametrically excited systems is extended for analyzing a strong nonlinear oscillator. Based on the solution of a nonlinear differential equation with constant coefficients, an approximative solution is introduced. The transition curves and transient surfaces along which periodic solutions exist are obtained. Their strong dependence on the initial conditions is evident. To prove the analytical solution, the numerical experiment is done. For certain values initial conditions and parameter values, the time history diagrams for the oscillator are plotted.

0022-460X
201-212
Cvetcanin, Livija
118109de-a322-4c21-bff9-216b258590b4
Kovacic, Ivana
a84bc948-5aa9-444f-8a58-12a731808a20
Cvetcanin, Livija
118109de-a322-4c21-bff9-216b258590b4
Kovacic, Ivana
a84bc948-5aa9-444f-8a58-12a731808a20

Cvetcanin, Livija and Kovacic, Ivana (2007) Parametrically excited vibrations of the oscillator with strong cubic negative non-linearity. Journal of Sound and Vibration, 304 (1-2), 201-212. (doi:10.1016/j.jsv.2007.02.028).

Record type: Article

Abstract

In this paper the parametrically excited vibrations of an oscillator with strong cubic negative nonlinearity are analyzed. The two-dimensional Lindstedt–Poincare perturbation technique applied for finding an approximate solution of linear parametrically excited systems is extended for analyzing a strong nonlinear oscillator. Based on the solution of a nonlinear differential equation with constant coefficients, an approximative solution is introduced. The transition curves and transient surfaces along which periodic solutions exist are obtained. Their strong dependence on the initial conditions is evident. To prove the analytical solution, the numerical experiment is done. For certain values initial conditions and parameter values, the time history diagrams for the oscillator are plotted.

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Published date: 10 July 2007

Identifiers

Local EPrints ID: 79131
URI: http://eprints.soton.ac.uk/id/eprint/79131
DOI: doi:10.1016/j.jsv.2007.02.028
ISSN: 0022-460X
PURE UUID: dba1dbcf-d3db-439f-aee3-2963e537792a

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Date deposited: 11 Mar 2010
Last modified: 14 Mar 2024 00:28

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Contributors

Author: Livija Cvetcanin
Author: Ivana Kovacic

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