[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/sem.2021.78.1.023

Reflection of electro-magneto-thermoelastic plane waves in a rotating medium in context of three theories with two-temperature

Abo-Dahab, S.M. (Department of Mathematic, Qena Faculty of Science, South Valley University)
Othman, Mohamed I.A. (Department of Mathematic, Faculty of Science, Zagazig University)
Alsebaey, Ohoud N.S. (Department of Mathematic, Faculty of Science, Taif University)

Publication Information

Structural Engineering and Mechanics / v.78, no.1, 2021 , pp. 23-30 More about this Journal

Abstract

In this paper, we established the generalized thermoelasticity phenomenon in an isotropic elastic medium considering the electromagnetic field, rotation and two-temperature. Three theories of generalized thermoelasticity have been applied: Lord-Shulman (one relaxation time), Green-Lindsay (two relaxation times), as well as the coupled theory. We discussed some particular cases in the context of the wave propagation phenomenon in thermoelasticity. From solving the fundamental equations, we arrived that there are three waves: P-, T- and SV-waves that we calculated their velocities. The boundary conditions for mechanical stress and Maxwell's stress and thermal insulated or isothermal have been applied to determine the amplitudes ratios (reflection coefficients) for P-, T - and SV waves. Some utilitarian aspects are obtained from the reflection coefficients, presented graphically, and the new conclusions have been presented. Comparisons are made for the results predicted by different theories (CT, LS, GL) in the absence and presence of the electro-magnetic field, rotation, as well as two-temperature on the reflection of generalized thermoelastic waves. The results obtained concluded that the external parameters as the angle of incidence, electromagnetic field, rotation as well as the theories parameters have strong effect on the phenomenon.

Keywords

electromagnetic field; reflection; rotation; P-wave; T-wave; SV-wave; two-temperature, relaxation times;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
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