Frequency analysis of a uniform ring perturbed by point masses and springs

Perturbation expansions of solutions for a uniform, thin, linear elastic ring perturbed by point masses and radial massless springs are developed. The perturbation locations divide the ring into uniform segments so a variational formulation is used to determine the boundary conditions that must be s...

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Bibliographic Details
Published in:Journal of sound and vibration 2017-06, Vol.397, p.204-221
Main Authors: Behbahani, Amir H., M'Closkey, Robert T.
Format: Article
Language:English
Subjects:
Algebra
Boundary conditions
Eigenvectors
Finite element analysis
Finite element method
Frequencies
Mathematical analysis
Perturbation analysis
Ring dynamics
Segments
Springs (elastic)
Studies
Vibratory gyro
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Summary:Perturbation expansions of solutions for a uniform, thin, linear elastic ring perturbed by point masses and radial massless springs are developed. The perturbation locations divide the ring into uniform segments so a variational formulation is used to determine the boundary conditions that must be satisfied between adjoining segments. The motion of each segment can be represented as a weighted sum of the eigenfunctions for the uniform thin ring so when the boundary conditions are enforced, the resulting algebraic relations are expanded as a function of the perturbation parameter (the perturbation mass normalized by the ring mass). A series of algebraic problems are sequentially solved to yield perturbation expansions for the modal frequencies and eigenmodes. Single-mass, dual-mass, and mass-spring case studies are considered. The perturbation results show excellent agreement with finite element analysis of a thin ring for mass perturbations up to 15% of the nominal ring mass. The results are also compared to Rayleigh-Ritz analysis. •Boundary conditions are derived for a ring with point mass/spring perturbations.•Perturbation expansions for frequencies and eigenfunctions are developed.•Case studies are considered and compared to finite element and approximate methods.
ISSN:0022-460X
1095-8568
DOI:10.1016/j.jsv.2017.02.057