| | Mechanics of Solids A Journal of Russian Academy of Sciences | | Founded
in January 1966
Issued 6 times a year
Print ISSN 0025-6544 Online ISSN 1934-7936 |
Archive of Issues
Total articles in the database: | | 12854 |
In Russian (Èçâ. ÐÀÍ. ÌÒÒ): | | 8044
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In English (Mech. Solids): | | 4810 |
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<< Previous article | Volume 58, Issue 5 / 2023 | Next article >> |
Iqbal Kaur and Kulvinder Singh, "Modified Moore-Gibson-Thompson Thermoelastic Model with Hyperbolic Two Temperatures Effect on Semiconducting Thermoelastic Solid Cylinder," Mech. Solids. 58 (5), 1723-1737 (2023) |
Year |
2023 |
Volume |
58 |
Number |
5 |
Pages |
1723-1737 |
DOI |
10.3103/S0025654423600745 |
Title |
Modified Moore-Gibson-Thompson Thermoelastic Model with Hyperbolic Two Temperatures Effect on Semiconducting Thermoelastic Solid Cylinder |
Author(s) |
Iqbal Kaur (Faculty of Mathematics, Government College for Girls, Palwal, Kurukshetra, India, bawahanda@gmail.com)
Kulvinder Singh (Faculty of Engineering, UIET, Kurukshetra University, Haryana, India, ksingh2015@kuk.ac.in) |
Abstract |
The goal of this study is to examine the photo-thermoelastic interactions in an infinite semiconducting solid cylinder with rotation subjected to an exponential laser pulse as a variable heat flux along the boundary surface. A Moore-Gibson-Thompson-Photo-Thermal (MGTPT) equation with hyperbolic two temperatures is used to express the equations that govern heat conduction in deformable bodies based on the difference between conductive and dynamic temperature acceleration. Proposed mathematical model is solved in a transformed domain using the Laplace transform. For computing displacement components, conductive temperature, thermal stresses, and carrier density in the physical domain, numerical inversion is used. A graphic representation of all the parameters are generated using MATLAB software to illustrate the effect of thermal relaxations as well as different theories of thermoelasticity with two temperatures. |
Keywords |
semiconducting cylinder, two temperature, exponential laser pulse, modified Moore Gibson Thompson heat transfer |
Received |
06 May 2023 | Revised |
11 June 2023 | Accepted |
15 June 2023 |
Link to Fulltext |
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