In-plane vibrational analysis of rotating curved beam with elastically restrained root

The upper bound of the fundamental bending frequency of a rotating uniform Timoshenko beam with general elastically restrained root is derived via Rayleigh's principle. Comparing the upper bound with the results in the existing literature and those obtained by the transfer matrix method reveals that

A survey of the literature shows that the titleproblem has not been studied to any great extent. In the present paper an approximate solution is obtained in the case of a beam with ends elastically restrained against rotation and an intermediate support. A sinusoidally varying excitation is assumed.

The title problem is considered in the case where the spinning beam cross-section possesses only one axis of symmetry. An exact solution is obtained by means of an extension of Bauer's approach, and with account taken of orthotropic properties of the beam supports. The effect of coupling with torsio

The free vibration analysis of the orthotropic Mindlin plates with edges elastically restrained against rotation has been accomplished using the Rayleigh-Ritz method. Polynomials with properties corresponding to those of the Timoshenko beam functions are introduced as trial functions in the spatial