Materials and Design, ( ISI ), No (30), Year (2009-6) , Pages (2011-2023)

Title : ( Coupled thermoelasticity and second sound in finite length functionally graded thick hollow cylinders (without energy dissipation) )

Authors: Seyed Mahmoud Hosseini ,

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Abstract

In this article, the coupled thermoelasticity behavior of functionally graded thick hollow cylinders is studied. The governing coupled thermoelasticity and the energy equations are solved for a finite length functionally graded cylinder subjected to thermal shock load. The coupled thermoelastic equations are considered based on Green–Naghdi theory. The mechanical properties of cylinder are graded across the thickness as a power law function of radius. The cylinder is assumed to be made of many isotropic sub-cylinders (layers) across the thickness. Functionally graded properties are created by suitable arrangement of layers and governing equations are expanded in longitudinal direction by means of trigonometric function expansion. The Galerkin Finite Element and Newmark Methods are used to analyze the cylinder. The dynamic behavior of temperature distribution, mechanical displacement and thermal stresses is obtained and discussed. The second sound and elastic wave propagation are determined for various kinds of variation in the mechanical properties. The comparison of present results with published data shows the excellent agreement.

Keywords

Coupled thermoelasticity Functionally graded materials Finite length cylinders Thermal shock
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@article{paperid:1009191,
author = {Hosseini, Seyed Mahmoud},
title = {Coupled thermoelasticity and second sound in finite length functionally graded thick hollow cylinders (without energy dissipation)},
journal = {Materials and Design},
year = {2009},
number = {30},
month = {June},
issn = {0261-3069},
pages = {2011--2023},
numpages = {12},
keywords = {Coupled thermoelasticity Functionally graded materials Finite length cylinders Thermal shock},
}

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%0 Journal Article
%T Coupled thermoelasticity and second sound in finite length functionally graded thick hollow cylinders (without energy dissipation)
%A Hosseini, Seyed Mahmoud
%J Materials and Design
%@ 0261-3069
%D 2009

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