H. Yücel, J. Kaplunov, N. Egec, B. Erbaş, “Asymptotic derivation of consistent thin shell equations for a fluid-loaded elastic annulus”, Prikl. Mekh. Tekh. Fiz., 2024, Volume 65, Issue 2,Pages <nobr>164

Asymptotic derivation of consistent thin shell equations for a fluid-loaded elastic annulus

H. Yücel^a, J. Kaplunov^b, N. Egec^c, B. Erbaş^c

^a Başkent University, Ankara
^b Keele University, School of Computing and Mathematics, Keele, United Kingdom
^c Eskisehir Technical University

Abstract: The classical time-harmonic plane strain problem for a fluid-loaded cylindrical elastic shell is revisited. The results of the low-frequency asymptotic analysis, including explicit formulae for eigenfrequencies, are presented. A refined version of the semi-membrane shell theory is formulated. It is shown that the shell inertia does not affect significantly the lowest eigenfrequencies. It is also demonstrated that the ring stress component has a parabolic linear variation.

Keywords: semi-membrane shell theory, plane strain, eigenfrequencies, asymptotic analysis.

UDC: 534.26

Received: 24.05.2023
Revised: 24.05.2023
Accepted: 04.08.2023

DOI: 10.15372/PMTF202315310