Vibration of a rotating shaft with randomly varying internal damping

The paper is concerned with a horizontal rotor with a flexible shaft supported in flexible bearings. Shaft and bearings may have damping and asymmetric/anisotropic stiffnesses. Major instabilities appear near the imbalance resonance. These instabilities can often be avoided with the right combinatio

The "nite element model is employed to investigate the mean-square response of a rotating blade with external and internal damping under stationary or non-stationary random excitation. The blade is considered to be subjected to white-noise and earthquake excitations. The e!ects of rotational speed,

A geometrically non-linear model of the rotating shaft is introduced, which includes KaH rman non-linearity, non-linear curvature e!ects, large displacements and rotations as well as gyroscopic e!ects. Through applying Timoshenko-type assumptions, the shear e!ects are also included in the model. Con

## Communicated by E. Meister It is shown that finite energy states of a vibrating viscoelastic plate of the Kelvin-Voigt type are, in general, not exactly controllable by L,-boundary controls. Accordingly, we present a result on approximative controllability. The method is general. \* The genera