Response of Generalized Thermoelastic for Free Vibrations of a solid cylinder with voids under a Dual-Phase-lag model
This study uses the Dual-Phase-Lag model to explore the free vibrations of a solid cylinder containing voids, examining the impact of generalized thermoelasticity. This model provides a comprehensive thermoelastic framework incorporating time delays between heat flow, temperature change, deformation, and stress. The core equations and relationships were assessed, focusing on vibrations caused by thermal shock at the cylinder's surface. The analysis employed the Laplace transform technique. Graphical representations were created from numerical data.