ON THE IN-PLANE VIBRATION AND STABILITY OF A SPINNING ANNULAR DISK

The equation of motion of a spinning isotropic annular plate of linearly and exponentially varying thickness is formulated based on the Lagrangian approach and the assumed mode method. The plate is assumed to be elastic in the spinning motion and the initial stress fields in the plate are derived as

In the present paper, natural frequencies and stability of a spinning polar orthotropic disk subjected to a stationary concentrated transverse load are investigated. The analysis of the free vibration of a spinning disk is performed "rst to "nd natural frequencies and corresponding vibration modes.

This paper presents a study on the in#uence of the physical non-linearity of material in creep conditions on vibration and stability of non-uniform annular plates subjected to a follower force radially distributed at the outer edge. The stability analysis requires "rst the calculation of a membrane

This paper is a continuation of Part 1 in which the idea of a synchronous vibration eliminator was investigated. The vibrator movement friction causes phase shifts of vibrators. Appearance of the vibrators' phase displacements causes that their e!ect on an object does not compensate fully the excita

Free non-linear vibration of a rotating thin ring with a constant speed is analyzed when the ring has both the in-plane and out-of-plane motions. The geometric non-linearity of displacements is considered by adopting the Lagrange strain theory for the circumferential strain instead of the infinitesi