On A Class Of Nonlinear Isotropic Thermo-Elastic Body That Is Non-Green Elastic: Applications To Large Elastic Deformations

R. Bustamante; M. H.B.M. Shariff

doi:10.1093/qjmam/hbae001

On A Class Of Nonlinear Isotropic Thermo-Elastic Body That Is Non-Green Elastic: Applications To Large Elastic Deformations

R. Bustamante
, M. H.B.M. Shariff

Mathematics

University of Chile

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

A new class of constitutive equation is proposed for isotropic thermoelastic solids, wherein the Hencky strain tensor is assumed to be a function of the Cauchy stress tensor, via a Gibbs potential. The solid is assumed to be incompressible in the referential state, but the volume can change due to differences in the temperature relative to a reference temperature. The change in volume only depends on temperature. Some restrictions are found for the Gibbs potential, resulting in a constitutive equation for isotropic solids, wherein the volume depends on temperature. Using the resulting constitutive equation, some boundary value problems are studied, considering some relatively simple distributions for the temperature, deformations and stresses.

Original language	British English
Pages (from-to)	435-470
Number of pages	36
Journal	Quarterly Journal of Mechanics and Applied Mathematics
Volume	76
Issue number	4
DOIs	https://doi.org/10.1093/qjmam/hbae001
State	Published - 1 Nov 2023

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title = "On A Class Of Nonlinear Isotropic Thermo-Elastic Body That Is Non-Green Elastic: Applications To Large Elastic Deformations",

abstract = "A new class of constitutive equation is proposed for isotropic thermoelastic solids, wherein the Hencky strain tensor is assumed to be a function of the Cauchy stress tensor, via a Gibbs potential. The solid is assumed to be incompressible in the referential state, but the volume can change due to differences in the temperature relative to a reference temperature. The change in volume only depends on temperature. Some restrictions are found for the Gibbs potential, resulting in a constitutive equation for isotropic solids, wherein the volume depends on temperature. Using the resulting constitutive equation, some boundary value problems are studied, considering some relatively simple distributions for the temperature, deformations and stresses.",

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AU - Bustamante, R.

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PY - 2023/11/1

Y1 - 2023/11/1

N2 - A new class of constitutive equation is proposed for isotropic thermoelastic solids, wherein the Hencky strain tensor is assumed to be a function of the Cauchy stress tensor, via a Gibbs potential. The solid is assumed to be incompressible in the referential state, but the volume can change due to differences in the temperature relative to a reference temperature. The change in volume only depends on temperature. Some restrictions are found for the Gibbs potential, resulting in a constitutive equation for isotropic solids, wherein the volume depends on temperature. Using the resulting constitutive equation, some boundary value problems are studied, considering some relatively simple distributions for the temperature, deformations and stresses.

AB - A new class of constitutive equation is proposed for isotropic thermoelastic solids, wherein the Hencky strain tensor is assumed to be a function of the Cauchy stress tensor, via a Gibbs potential. The solid is assumed to be incompressible in the referential state, but the volume can change due to differences in the temperature relative to a reference temperature. The change in volume only depends on temperature. Some restrictions are found for the Gibbs potential, resulting in a constitutive equation for isotropic solids, wherein the volume depends on temperature. Using the resulting constitutive equation, some boundary value problems are studied, considering some relatively simple distributions for the temperature, deformations and stresses.

UR - https://www.scopus.com/pages/publications/85195647288

U2 - 10.1093/qjmam/hbae001

DO - 10.1093/qjmam/hbae001

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EP - 470

JO - Quarterly Journal of Mechanics and Applied Mathematics

JF - Quarterly Journal of Mechanics and Applied Mathematics

IS - 4

ER -

On A Class Of Nonlinear Isotropic Thermo-Elastic Body That Is Non-Green Elastic: Applications To Large Elastic Deformations

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