On the Coupled Transient Hygrothermal Analysis in the Porous Cylindrical Panels

“…They derive the governing equations of motion and use them as the basis for investigating the effects of porosity volume fractions, porosity cases, thermal boundary conditions, moisture concentration, FG indexes, slenderness ratio, and temperature rise. Beni and Alihemmati (2021) analyze transient coupled heat and moisture transfer in the cylinders and porous cylindrical panels using finite element method (FEM). They derive FEM-based weak forms of the equations using Galerkin method and solve the obtained time-dependent differential equations using Ronge-Kutta method.…”

Editorial to the Special Issue on Advanced Micro/Nanoscale Porous Materials for Novel Applications: Answering to Future Needs

“…They derive the governing equations of motion and use them as the basis for investigating the effects of porosity volume fractions, porosity cases, thermal boundary conditions, moisture concentration, FG indexes, slenderness ratio, and temperature rise. Beni and Alihemmati (2021) analyze transient coupled heat and moisture transfer in the cylinders and porous cylindrical panels using finite element method (FEM). They derive FEM-based weak forms of the equations using Galerkin method and solve the obtained time-dependent differential equations using Ronge-Kutta method.…”

Editorial to the Special Issue on Advanced Micro/Nanoscale Porous Materials for Novel Applications: Answering to Future Needs

Critical Buckling Load Analysis Of Porous Orthotropic Two-Layered Cylindrical Panels Based on Trigonometric Shear Deformation Theory

On thermo-mechanical bending response of porous functionally graded sandwich plates via a simple integral plate model