Natural frequencies of cylindrical shells and panels in vacuum and in a fluid

Coaxial shells or cylinders containing fluid have been widely used as structural components in various applications. Several previous investigations have been performed to analyze the free vibration of fluid-filled, coaxial cylindrical shells. However, previous theories were limited to the approxima

An analytical procedure to estimate not only the natural frequencies but also modes of open cylindrical shells with a circumferential thickness taper by the transfer matrix method is presented. The transfer matrix is derived from the non-linear differential equations for the cylindrical shells by nu

It is proved that cylindrical shells and two dimensional flat panels constrained to zero displacement at their leading and trailing edges, and exposed to subsonic flow, can lose their stability by divergence (buckling) while in supersonic flow two-dimensional panels can only flutter. Moreover, it i

The frequency equations previously derived for free, axisymmetric vibrations of an elastic spherical shell submerged in a compressible viscous fluid is reduced to a simple polynomial expression. Its complete solutions are numerically obtained and presented for a steel shell submerged in water. Altho