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Effect of porosity distribution on vibration and damping behavior of inhomogeneous curved sandwich beams with fractional derivative viscoelastic core

Mustafa Taşkin (Department of Naval Architecture and Marine Engineering, Turkish Naval Academy, National Defense University, Istanbul, Turkey)
Özgür Demir (Department of Naval Architecture and Marine Engineering, Yildiz Technical University, Istanbul, Turkey)

Engineering Computations

ISSN: 0264-4401

Article publication date: 27 April 2023

Issue publication date: 2 June 2023

179

Abstract

Purpose

The purpose of this paper is to parametrically investigate the vibration and damping characteristics of a functionally graded (FG) inhomogeneous and porous curved sandwich beam with a frequency-dependent viscoelastic core.

Design/methodology/approach

The FG material properties in this study are assumed to vary through the beam thickness by power law distribution. Additionally, FG layers have porosities, which are analyzed individually in terms of even and uneven distributions. First, the equations of motion for the free vibration of the FG curved sandwich beam were derived by Hamilton's principle. Then, the generalized differential quadrature method (GDQM) was used to solve the resulting equations in the frequency domain. Validation of the proposed FG curved beam model and the reliability of the GDQ solution was provided via comparison with the results that already exist in the literature.

Findings

A series of studies are carried out to understand the effects on the natural frequencies and modal loss factors of system parameters, i.e. beam thickness, porosity distribution, power law exponent and curvature on the vibration characteristics of an FG curved sandwich beam with a ten-parameter fractional derivative viscoelastic core material model.

Originality/value

This paper focuses on the vibration and damping characteristics of FG inhomogeneous and porous curved sandwich beam with frequency dependent viscoelastic core by GDQM – for the first time, to the best of the authors' knowledge. Moreover, it serves as a reference for future studies, especially as it shows that the effect of porosity distribution on the modal loss factor needs further investigation. GDQM can be useful in dynamic analysis of sandwich structures used in aerospace, automobile, marine and civil engineering applications.

Keywords

Citation

Taşkin, M. and Demir, Ö. (2023), "Effect of porosity distribution on vibration and damping behavior of inhomogeneous curved sandwich beams with fractional derivative viscoelastic core", Engineering Computations, Vol. 40 No. 3, pp. 538-563. https://doi.org/10.1108/EC-04-2022-0269

Publisher

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Emerald Publishing Limited

Copyright © 2023, Emerald Publishing Limited

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