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Rayleigh wave propagation with two temperature and diffusion in context of three phase lag thermoelasticity

Mandeep Singh, Sangeeta Kumari

2022Journal of Ocean Engineering and Science19 citationsDOIOpen Access PDF

Abstract

The primary objective of this research problem is to analyze the Rayleigh wave propagation in homogeneous isotropic half space with mass diffusion in Three Phase Lag (TPL) thermoelasticity at two temperature. The governing equations of thermodiffusive elastic half space have been solved using the normal mode analysis in order to obtain the Rayleigh wave frequency equation at relevant boundary conditions. The variation of various parameters like non-dimensional speed, attenuation coefficient, penetration depth and specific loss corresponding to thermodiffusion parameter, relaxation time, wave number and frequency has been obtained. The effect of these parameters on Rayleigh wave propagation in thermoelastic half space are graphically demonstrated and variations of all these parameters have been compared within Lord–Shulman (L-S), Green–Nagdhi (GN-III) and Three Phase Lag (TPL) theory of thermoelasticity.

Topics & Concepts

Thermoelastic dampingAttenuationRayleigh scatteringIsotropyContext (archaeology)Phase velocityMathematical analysisWave propagationLagPhase (matter)Boundary value problemRayleigh waveMechanicsPhysicsMathematicsThermalThermodynamicsOpticsPaleontologyComputer networkComputer scienceBiologyQuantum mechanicsThermoelastic and Magnetoelastic PhenomenaNumerical methods in engineeringNonlocal and gradient elasticity in micro/nano structures
Rayleigh wave propagation with two temperature and diffusion in context of three phase lag thermoelasticity | Litcius