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Volume 14, Issue 3
7 August 2018
Multidiscipline Modeling in Materials and Structures Cover Image for Volume 14, Issue 3
Research Article| April 11 2018

Effect of gravity on generalized thermoelastic diffusion due to laser pulse using dual-phase-lag model Available to Purchase

Mohamed I.A. Othman;
Mohamed I.A. Othman
Department of Mathematics, Faculty of Science,
Zagazig University
, Zagazig,
Egypt
Mohamed I.A. Othman can be contacted at: m_i_a_othman@yahoo.com
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Ebtesam E.M. Eraki
Ebtesam E.M. Eraki
Department of Mathematics, Faculty of Science,
Zagazig University
, Zagazig,
Egypt
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Author & Article Information
Mohamed I.A. Othman can be contacted at: m_i_a_othman@yahoo.com
Publisher: Emerald Publishing
Received: August 23 2017
Revision Received: October 15 2017
Revision Received: December 17 2017
Accepted: February 05 2018
Online ISSN: 1573-6113
Print ISSN: 1573-6105
© Emerald Publishing Limited
2018
Emerald Publishing Limited
Licensed re-use rights only
Multidiscipline Modeling in Materials and Structures (2018) 14 (3): 457–481.
https://doi.org/10.1108/MMMS-08-2017-0087
Article history
Received:
August 23 2017
Revision Received:
October 15 2017
Revision Received:
December 17 2017
Accepted:
February 05 2018
Purpose

The purpose of this paper is to obtain a general solution to the field equations of generalized thermo-diffusion in an infinite thermoelastic body under the effect of gravity in the context of the dual-phase-lag (DPL) model. The half space is considered made of an isotropic homogeneous thermoelastic material. The boundary plane surface is heated by a non-Gaussian laser beam.

Design/methodology/approach

An exact solution to the problem is obtained using the normal mode analysis.

Findings

The derived expressions are computed numerically for copper and the results are presented in graphical form.

Originality/value

Comparisons are made with the results predicted by Lord-Shulman theory and DPL model for different values of time and in the presence and absence of gravity as well as diffusion.

Keywords:
Diffusion, Gravity, Laser pulse, Dual-phase-lag model, Generalized thermoelasticity
© Emerald Publishing Limited
2018
Emerald Publishing Limited
Licensed re-use rights only
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