Stresses in rotating composite cylindrical shells

The interlaminar stresses in laminated composite cylindrical shell strips under dynamic transverse loading are studied here within the purview of a first order shear deformation theory. The dynamic equations of equilibrium are solved by a combination of Navier's approach and a Laplace transform tech

Free vibrations of thick rotating cross-ply laminated composite cylindrical shells are studied based on the "rst order shear deformation shell theory (FSDT). The governing equations of "ve degrees of freedom with consideration of Coriolis accelerations and rotary inertias are established. Analytical

A formulation and numerical solution are presented for the response and eigenfrequencies of cylindrical shells undergoing general angular velocity. This may simulate the structural dynamics of various engineering applications such as composite helicopter blades and satellites. The formulation of the

The analytical solutions for the free vibration of the rotating composite cylindrical shells with axial stieners (stringers) and circumferential stieners (rings), that is, orthogonal stieners, are presented using the energy method. The cylindrical shells are stiened with uniform interval and the sti