A Wronskian method for elastic waves propagating along a tube

C. J. Chapman*, S. V. Sorokin

*Kontaktforfatter

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2 Citationer (Scopus)

Abstract

A technique involving the higher Wronskians of a differential equation is presented for analysing the dispersion relation in a class of wave propagation problems. The technique shows that the complicated transcendental-function expressions which occur in series expansions of the dispersion function can, remarkably, be simplified to low-order polynomials exactly, with explicit coefficients which we determine. Hence simple but high-order expansions exist which apply beyond the frequency and wavenumber range of widely used approximations based on kinematic hypotheses. The new expansions are hypothesis-free, in that they are derived rigorously from the governing equations, without approximation. Full details are presented for axisymmetric elastic waves propagating along a tube, for which stretching and bending waves are coupled. New approximate dispersion relations are obtained, and their high accuracy confirmed by comparison with the results of numerical computations. The weak coupling limit is given particular attention, and shown to have a wide range of validity, extending well into the range of strong coupling.

OriginalsprogEngelsk
Artikelnummer20210202
TidsskriftProceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences
Vol/bind477
Udgave nummer2250
ISSN1364-5021
DOI
StatusUdgivet - 30 jun. 2021

Bibliografisk note

Funding Information:
Data accessibility. The paper does not report primary data. Authors’ contributions. Both of the authors have contributed substantially to the paper. Competing interests. We declare we have no competing interests. Funding. Part of the work was carried out at the Isaac Newton Institute for Mathematical Sciences during the programme ‘Complex analysis: techniques, applications and computations’, funded by EPSRC grant no. EP/R014604/1. The work was also funded by Keele and Aalborg Universities. Acknowledgements. The authors thank J. D. Kaplunov at Keele and S. G. Mogilevskaya at the Isaac Newton Institute, Cambridge University, for helpful comments.

Publisher Copyright:
© 2021 The Author(s).

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