Exact solution of the Mindlin–Herrmann model for longitudinal vibration of an isotropic rod

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Authors

Tenkam, H.M.
Anguelov, Roumen
Fedotov, I.
Shatalov, M.

Journal Title

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Volume Title

Publisher

Springer

Abstract

This paper presents a new approach to the problem of coupled longitudinal and transversal propagation of stress waves in an isotropic thick and elastic rod, based on the Mindlin-Herrmann theory. The novelty is that, the Hamilton vriational principle is used not only for derivation of the governing equations and set of natural boundary conditions, but also for obtaining the exact solution in terms Green functions directly from the Langrangian. The success of this approach is based on the existence of multiple orthogonalities of the eigenfuctions. The proposed method is much easier than the standard approach of building Green functions. A numerical example illustrates the method of finding eigenfrequencies and eigenfunctions for isotropic Mindlin-Herrmann rod.

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Keywords

Eigenfunction orthogonalities, Green function, Longitudinal-transversal vibration, Mindlin-Herrmann model, Self-adjoint operator

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Citation

Tenkam, HM, Anguelov, R, Fedotov, I & Shatalov, M 2016, 'Exact solution of the Mindlin–Herrmann model for longitudinal vibration of an isotropic rod', Journal of Engineering Mathematics, vol. 99, no. 1, pp. 185-201.