Aya A. Youssef scite author profile

Aya A. Youssef

2Publications

5Citation Statements Received

0Citation Statements Given

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Suez Canal University

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Nonlinear Rayleigh wave propagation in thermoelastic media in dual-phase-lag.

Youssef

Amein

Abdelrahman

et al. 2022

Preprint

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A model of generalized thermoelasticity within dual-phase-lag is used to investigate nonlinear Rayleigh wave propagation in a half-space of a transversely isotropic elastic material. It is assumed that the coefficient of heat conduction is temperature-dependent, a fact that plays an important role in the coupling behaviour analysis of thermoelastic and piezo-thermoelastic solids. Taking such a dependence into account becomes a necessity at higher temperatures, when the material properties can no longer be considered as constants. Normal mode analysis is applied to find a particular solution to the problem under consideration. A concrete case is solved under prescribed boundary conditions and tentative values of the different material coefficients. The results are discussed to reveal the effect of temperature dependence of the heat conduction coefficient, as well as the thermal relaxation times, on nonlinear Rayleigh wave propagation. All quantities of practical interest are illustrated in two-and three-dimensional plots. The presented results may be useful in the detection of the second harmonic amplitudes through measurements related to the propagating heat wave.

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Nonlinear Rayleigh wave propagation in a layered half-space in dual-phase-lag

Youssef

Amein

Abdelrahman

et al. 2023

Preprint

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We investigate nonlinear Rayleigh wave propagation in a layered thermoelastic medium composed of a slab rigidly bonded to the surface of a half-space under prescribed external thermal boundary conditions within the dual-phase-lag theory. The heat conduction coecient for both the slab and the matrix have a linear dependence on temperature. Our aim is to assess the eect of temperature dependence of the heat conductivity, as well as the thermal relaxation times, on the process of wave propagation in the layered medium. Poincaré expansion of the solution in a small parameter and the generation of higher harmonics allow to evaluate the coecient of this nonlinear coupling in the slab through heat wave propagation measurement. For the used numerical values, the results show that some characteristics of the problem, e.g. the temperature, heat flux and one stress component suer jumps at the interface, while the other stress components are continuous there. The existence of jumps at the interface may be of interest for measurements. Comparison with the case of the half-space showed that the presence of the slab contributes to faster damping of the solution with depth in the half-space.

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Aya A. Youssef

Nonlinear Rayleigh wave propagation in thermoelastic media in dual-phase-lag.

Nonlinear Rayleigh wave propagation in a layered half-space in dual-phase-lag

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