Nonlinear buckling analysis of stiffened FG-GRC laminated cylindrical shells subjected to axial compressive load in thermal environment

“…In the works, [2,3] the buckling of functionally graded graphene platelets (GPLs)-reinforced cylindrical shells was investigated through finite-element method, and the effects of the weight fraction, geometry and distribution of GPLs, number of layers, shell dimensions, and existence of cutout on the buckling were analyzed. In the works, [4][5][6][7][8][9][10] a high-order shear method was used to model the postbuckling of functionally graded GP-reinforced composite (FG-GRC)-laminated plates, considering the thermal effects and plate-foundation interaction, the results revealed that the postbuckling strength and buckling loads will be enhanced through distribution of GP. A new analytical analysis about the postbuckling and nonlinear buckling of FG-GRC-laminated shells with FG-GRClaminated stiffeners under exterior force was proposed by Phuong et al, [11,12] the postbuckling was formed by applying the Galerkin method.…”

Buckling Analysis of Composite Piezoelectric Cylindrical Shells with Graphene Skin Subjected to the Axial Load

“…In the works, [2,3] the buckling of functionally graded graphene platelets (GPLs)-reinforced cylindrical shells was investigated through finite-element method, and the effects of the weight fraction, geometry and distribution of GPLs, number of layers, shell dimensions, and existence of cutout on the buckling were analyzed. In the works, [4][5][6][7][8][9][10] a high-order shear method was used to model the postbuckling of functionally graded GP-reinforced composite (FG-GRC)-laminated plates, considering the thermal effects and plate-foundation interaction, the results revealed that the postbuckling strength and buckling loads will be enhanced through distribution of GP. A new analytical analysis about the postbuckling and nonlinear buckling of FG-GRC-laminated shells with FG-GRClaminated stiffeners under exterior force was proposed by Phuong et al, [11,12] the postbuckling was formed by applying the Galerkin method.…”

Buckling Analysis of Composite Piezoelectric Cylindrical Shells with Graphene Skin Subjected to the Axial Load

Nonlinear buckling of axially compressed FG‐GRCL stiffened cylindrical panels with a piezoelectric layer by using Reddy's higher‐order shear deformation theory

Buckling analysis of single and double-layer annular graphene sheets in thermal environment