Thermal Conductivity Study of an Orthotropic Medium Containing a Cylindrical Cavity

An interesting feature that appears in the thermoelastic interaction in an orthotropic material containing cylindrical cavities is addressed in this study. For this purpose, the Finite Element Method is applied to analyze a generalized thermoelasticity theory with a relaxation time. For the development of the model, a thermal conductivity that is dependent on the temperature of the orthotropic medium was considered. The boundary condition for the internal surface of a cylindrical hollow is defined by the thermal shocks and the traction on the free surface. The nonlinear formulations of thermoelastic based on thermal relaxation time in orthotropic mediums are abbreviated using the Finite Element Method. The nonlinear equations without Kirchhoff's transformations are presented. The results are graphically represented to demonstrate how changing thermal conductivity affects all physical values.

Automated summary

This study investigates an interesting feature in the thermoelastic interaction in an orthotropic material containing cylindrical cavities. The Finite Element Method is used to analyze a generalized thermoelasticity theory with a relaxation time, considering a thermal conductivity dependent on the temperature of the medium. The results demonstrate how changing thermal conductivity affects all physical values.