Vibration analysis of thick composite clamped conical shells of varying thickness

Pre-stressed circular conical shells are analyzed for their vibration characteristics. Moderately thick shell theory with shear deformation and rotatory inertia has been used for the analysis. Second order strains with the in-plane and transverse non-linear terms are used for the derivation of the g

Circular conical shells rotating about their axis of revolution are analyzed for the natural frequencies and the damping factor due to material damping by using moderately thick shell theory with shear deformation and rotatory inertia. Second order strains with the in-plane and transverse non-linear

The "nite element method based on the Hellinger}Reissner principle with independent strain is applied to the vibration problem of cantilevered twisted plates and cylindrical, conical laminated shells. With a small number of elements, the present assumed strain "nite element method is validated by co