Reflection of Plane Waves in Non-Local Microstretch Dual Phase Lag Thermoelastic Medium

This study explores the propagation of plane waves in a two-dimensional micro stretch thermoelastic non local dual phase lag model. This study addresses the dual phase thermoelasticty with complex micro structures by employing microstretch theory which incorporates rotation, microstretch and non-local at microscale. The governing equations of the model are solved for the plane waves and found the existence of coupled waves as Coupled Transverse Displacement (CTD) wave, Coupled Micro-rotational Displacement wave (CMD) and the other three waves are Coupled Longitudinal Displacement (CLD) wave, Coupled Thermal (CT) wave and Coupled Transverse Micro-rotational (CTM) wave. The reflection coefficients of these waves are calculated by using the relevant boundary conditions. The graphical results, demonstrates how the non-locality and dual phase lag affects the phase velocity and the reflection coefficients of the model.