A MODIFIED INFLUENCE COEFFICIENT METHOD FOR BALANCING UNSYMMETRICAL ROTOR-BEARING SYSTEMS

On the basis of theoretical developments, this study proposes procedures for a modified unified balancing method for unsymmetrical rotor-bearing systems. A formulation of modal influence coefficient matrices is derived from the motion equations for unsymmetrical rotors, using a complex co-ordinate r

The conventional balancing machines utilize two-plane separation for the determination of equivalent imbalances. However, the imbalance masses of a crank-shaft cannot be corrected at arbitrary locations of the balancing planes. This study has presented a modi"ed method for balancing crank-shafts by

For analyzing the coupled lateral and torsional vibrations of asymmetric rotor-bearing system, an extended transfer matrix extended from one of the symmetric system is developed. Rather than the conventional “lumped system”, the asymmetric rotating shaft is modeled by the Timoshenko beam in a contin

A general approach has been developed for on-site identification of the actual configuration (alignment) of multi-bearing rotor systems (e.g., a turbogenerator unit). The identifcation procedure is based on the monitored trajectories of the relative motion of the journals with respect to the bearing

In this paper, an identification technique in the dynamic analyses of rotor-bearingfoundation systems called the pseudo mode shape method (PMSM) was improved in order to enhance the accuracy of the identified dynamic characteristic matrices of its foundation models. Two procedures, namely, phase mod