In this paper, the nonlinear vibrations of functionally graded (FGM) circular cylindrical shells
are analysed. The Sanders–Koiter theory is applied to model the nonlinear dynamics of the …

The nonlinear forced vibration of infinitely long functionally graded cylindrical shells is
studied using the Lagrangian theory and multiple scale method. The equivalent properties of …

In the present study, the dynamic stability of simply supported, circular cylindrical shells
subjected to dynamic axial loads is analysed. Geometric nonlinearities due to finite …

Based on the nonlinear large deflection theory of cylindrical shells as well as the Donnell
assumptions, this paper presents nonlinear buckling and postbuckling analyses for axially …

The non-linear transverse dynamic response of laminated composite simply supported
circular cylindrical shell subjected to periodic radial point loading and static axial partial …

The nonlinear large deflection theory of cylindrical shells is extended to discuss nonlinear
buckling and postbuckling behaviors of functionally graded (FG) cylindrical shells which are …

In this study, the geometrically nonlinear behaviour caused by large displacements and
rotations in the cross sections of thin-walled composite beams subjected to axial loading is …

The analytical approach is presented to study the nonlinear vibration of W-Cu sandwich
shell containing heavy water surrounded by an elastic foundation under thermo-mechanical …

The geometrically nonlinear response of sandwich functionally graded cylindrical shells
reinforced by orthogonal and/or spiral stiffeners and subjected to axial compressive loads is …

The present paper is focused on the experimental and theoretical analysis of circular
cylindrical shells under base excitation. The shell axis is vertical, it is clamped at the base …