Reflection at the free surface of fiber-reinforced thermoelastic rotating medium with two-temperature and phase-lag

“…It is noteworthy to state that the normal modes method used in this problem is helpful for achieving a successful investigation. Our modelled problem and results are similar to Sunita, Suresh and Kapil, 30 if magnetic field and micropolar are neglected.…”

“…28 An eigenvalue approach was utilized by Sinha and Bera to solve the fundamental equations of the problems of generalized thermo-elasticity with rotation. 29 Similar issues of wave propagation and reflection in the context of fibre-reinforced or thermo-elasticity with distinct parameters were studied by Deswal, Sheokand, and Kalkal, 30 Roy, Acharya, and Acharya, 31 Singh and Singh, 32 Singh and Lianngenga, 33 and Lianngenga and Singh. 34 In view of the above literatures, the present investigation is concerned with propagation and reflection of magnetothermoelastic plane waves at the free surfaces of a rotating micropolar fibre-reinforced medium under G-L theory.…”

“…To study the effects of magnetic field, and thermal parameters of reflection coefficients of plane waves in a rotating micropolar fibre-reinforced material under Greens and Lindsay theory of thermos-elasticity, the numerical fibre-reinforced physical constants 30 and other parameters are taken as: λ = 5.65 × 10 10 kgm −1 s −2 ; µ T = 2.46 × 10 10 kgm −1 s −2 ; µ L = 5.66 × 10 10 kgm −1 s −2 ; ρ = 2660 kgm −3 ; α = −1.28 × 10 9 kgm −1 s −2 ; β = 220.90 × 10 9 kgm −1 s −2 ; H 0 = 100; k 0 = 1; Ω = 10; ω = 2; t 1 = 0.3 s; ν 0 = 0.6 s; C ν = 0.787 × 10 3 Jkg −1 deg −1 ; T 0 = 2.93 K; K 1 = 0.0963 × 10 3 Jm −1 s −1 deg −1 .…”

Reflection and Propagation of Magneto-Thermoelastic Plane Waves at Free Surfaces of a Rotating Micropolar Fibre-Reinforced Medium under G-L Theory

“…It is noteworthy to state that the normal modes method used in this problem is helpful for achieving a successful investigation. Our modelled problem and results are similar to Sunita, Suresh and Kapil, 30 if magnetic field and micropolar are neglected.…”

“…28 An eigenvalue approach was utilized by Sinha and Bera to solve the fundamental equations of the problems of generalized thermo-elasticity with rotation. 29 Similar issues of wave propagation and reflection in the context of fibre-reinforced or thermo-elasticity with distinct parameters were studied by Deswal, Sheokand, and Kalkal, 30 Roy, Acharya, and Acharya, 31 Singh and Singh, 32 Singh and Lianngenga, 33 and Lianngenga and Singh. 34 In view of the above literatures, the present investigation is concerned with propagation and reflection of magnetothermoelastic plane waves at the free surfaces of a rotating micropolar fibre-reinforced medium under G-L theory.…”

“…To study the effects of magnetic field, and thermal parameters of reflection coefficients of plane waves in a rotating micropolar fibre-reinforced material under Greens and Lindsay theory of thermos-elasticity, the numerical fibre-reinforced physical constants 30 and other parameters are taken as: λ = 5.65 × 10 10 kgm −1 s −2 ; µ T = 2.46 × 10 10 kgm −1 s −2 ; µ L = 5.66 × 10 10 kgm −1 s −2 ; ρ = 2660 kgm −3 ; α = −1.28 × 10 9 kgm −1 s −2 ; β = 220.90 × 10 9 kgm −1 s −2 ; H 0 = 100; k 0 = 1; Ω = 10; ω = 2; t 1 = 0.3 s; ν 0 = 0.6 s; C ν = 0.787 × 10 3 Jkg −1 deg −1 ; T 0 = 2.93 K; K 1 = 0.0963 × 10 3 Jm −1 s −1 deg −1 .…”

Reflection and Propagation of Magneto-Thermoelastic Plane Waves at Free Surfaces of a Rotating Micropolar Fibre-Reinforced Medium under G-L Theory

“…Several researchers have studied many problems in a fiber-reinforced TE medium. Some of them are Sengupta and Nath [27], Singh [28], Abbas et al [29], Deswal et al [30], and Said et al [31].…”

Photothermal interactions in a semiconducting fiber‐reinforced elastic medium with temperature‐dependent properties under dual‐phase‐lag model

“…Deswal et al 21 responded to fractional ordered micropolar thermoviscoelastic half‐space with diffusion because of the ramp‐type mechanical load. Deswal et al 22 investigated the reflection at the free surface of fiber‐reinforced thermoelastic rotating medium with phase‐lag and two‐temperature. Abo‐Dahab et al 23 explored the impact of the electromagnetic field, gravity, initial stress, and rotation on P wave reflection from stress‐free surface elastic half‐space with voids under three thermoelastic models.…”

Electromagnetic field and three‐phase lag in a compressed rotating isotropic homogeneous micropolar thermo‐viscoelastic half‐space