This paper presents the first attempt to investigate the mechanical behaviors of the three-
dimensional theory of poroelasticity for functionally graded graphene platelets reinforced …

The present study focuses on performing a free vibration analysis of a functionally graded
(FG) porous cylindrical shell subject to different sets of immovable boundary conditions. It is …

In this research, buckling and vibrational characteristics of a spinning cylindrical moderately
thick shell covered with piezoelectric actuator carrying spring-mass systems are performed …

In this article, buckling and vibrational behaviors of a carbon nanotube reinforced spinning
cylindrical thick shell carrying spring–mass systems and conveying viscous fluid flow are …

In this article, vibrational behavior and critical voltage of a spinning cylindrical thick shell
covered with piezoelectric actuator (PIAC) carrying spring-mass systems are investigated. It …

In this article, higher-order closed-form solutions are obtained for static bending and free
vibration analysis of laminated composite and sandwich spherical shells using a …

The static and dynamic problems of thin functionally graded shells (FGSs) with in-plane
material inhomogeneity are investigated in this work. Governing equations are derived …

In this study, the transient responses of functionally graded graphene nanoplatelet
reinforced porous cylindrical microshells subjected to time-dependent localized distributed …

This paper presents dynamic formulation for a sandwich cylindrical panel based on higher
order shear-deformation theory and Hamilton's principle. The sandwich cylindrical panel is …

This work analyzes the impact of porosity on the static and dynamic behaviors of laminated
composite shells using a novel high-order shear deformation theory. The employed model …