@misc{Kumar_Sandeep_Response,
 author={Kumar, Sandeep and Kumari, Neelam and Gupta, Vipin and Barak, M.S.},
 howpublished={online},
 publisher={Zielona Góra: Uniwersytet Zielonogórski},
 language={eng},
 abstract={This article presents a mathematical framework that characterizes a transversely isotropic piezo-visco-thermo- elastic medium within the context of the dual-phase lags heat transfer law (PVID) applied to an elastic medium (ES). Specifically, the study investigates the propagation of plane waves within the elastic medium and their interaction with the imperfect interface of the ES/PVID media.},
 abstract={This interaction results in two waves reflecting back into the elastic medium and four waves propagating through the piezo-visco-thermo-elastic medium. The research explores the distribution of energy between the reflected and transmitted waves by analyzing amplitude ratios at the boundary interfaces, considering factors such as phase delays, viscosity effects, and wave frequency.},
 abstract={The study illustrates the influence of boundary stiffness and viscosity parameters on these energy ratios through graphical rePresentations. The study`s findings are consistent with the principles of the energy balance law, and the research also delves into specific cases of interest. Overall, this investigation provides insights into wave behavior within complex media and offers potential applications across various fields.},
 type={artykuł},
 title={Response of stiffness and viscosity on the energy ratios at piezo-visco-thermo-elastic medium},
 keywords={dual-phase lag, energy ratios, imperfect interfaces, piezo-thermoelastic, viscosity},
}