MODELLING, SYNTHESIS AND DYNAMIC ANALYSIS OF COMPLEX FLEXIBLE ROTOR SYSTEMS

The effect of the direction of application and magnitude of loads on the stability and natural frequency of flexible rotors is analyzed, when the rotors are subject to non-conservative torque and force. The stability criterion derived from the energy and variational principle is discussed and a gene

A dynamic model is derived for misaligned rotor-ball bearing systems driven through a flexible coupling by treating the reaction loads and deformations at the bearing and coupling elements as the misalignment effect. In order to verify the validity of the misaligned rotor system model, experiments a

## Abstract We consider queueing systems with multiple classes of customers and heterogeneous servers where customers have the flexibility of being processed by more than one server and servers possess the capability of processing more than one customer class. We provide a unified framework for the

Dynamic stability and time responses are studied for an automatic ball balancer of a rotor with a flexible shaft. The Stodola-Green rotor model, of which the shaft is flexible, is selected for analysis. This rotor model is able to include the influence of rigid-body rotations due to the shaft flexib