Download PDFOpen PDF in browserThermoelastic Analysis of Clamped-Clamped FG-CNTRC Cylinders by Using Higher-Order Shear Deformation Theory and Temperature-Dependent Material PropertiesEasyChair Preprint 950210 pages•Date: December 21, 2022AbstractThermoelastic analysis of clamped-clamped FG-CNTRC cylinders subjected to thermomechanical load was conducted in this study. The temperature varies through the thickness, and the temperature distribution is derived from the steady state three-dimensional heat conduction equation. The material properties of FG-CNTRC are temperature-dependent. The gorvening equations are established by using the higher-order shear deformation theory, including the transverse normal stress effect. These equations were solved by an analytical solution that used the single trigonometric series and the Laplace transformation. The present approach is validated by comparing the results with published results. The effects of CNT distribution, thermal load on temperature distribution, displacement, and stresses of clamped-clamped FG-CNTRC cylinders subjected to thermo-mechanical load are investigated. Keyphrases: FG-CNTRC, Higher order shear deformation theory, Thermoelastic, cylindrical shell, temperature-dependent material properties
|
