Thomson effect with hyperbolic two-temperature on magneto-thermo-visco-elasticity

A. M. Alharbi; M. I. A. Othman; H. M. Atef

doi:10.1007/s10483-021-2763-7

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Thomson effect with hyperbolic two-temperature on magneto-thermo-visco-elasticity

Journal article

Peer reviewed

Thomson effect with hyperbolic two-temperature on magneto-thermo-visco-elasticity

A. M. Alharbi, M. I. A. Othman and H. M. Atef

Applied mathematics and mechanics, Vol.42(9), pp.1311-1326

01/09/2021

DOI: https://doi.org/10.1007/s10483-021-2763-7

Abstract

Mathematics

Mathematics, Applied

Mechanics

Physical Sciences

Science & Technology

Technology

The study considers a homogeneous isotropic thermo-visco-elastic solid with hyperbolic two-temperature to cope up with its two-dimensional (2D) deformations. The heat conduction equation is influenced by the Thomson coefficient. Lord-Shulman's theory is used to modify the basic governing equations. A method called "normal mode analysis" is utilized to attain the magnetic field, stress, conductive and thermodynamic temperature, and displacement components. Also, a number of numerical calculations are performed and discussed to understand the impact of hyperbolic two-temperatures, Thomson parameter, and viscosity on the material mentioned above.

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Title: Thomson effect with hyperbolic two-temperature on magneto-thermo-visco-elasticity
Creators - without role: A. M. Alharbi - Taif University
M. I. A. Othman - Zagazig University
H. M. Atef - Damanhour University
Publication Details: Applied mathematics and mechanics, Vol.42(9), pp.1311-1326
Publisher: Shanghai Univ
Number of pages: 16
Grant note: TURSP-2020/230 / Taif University Researchers Supporting Project in Taif University of Saudi Arabia
Identifiers: 9910836108331
Academic Unit: Taif University
Language: English
Resource Type: Journal article