Automatic balancing of flexible rotors, Part II: Synthesis of system

Some possibilities of automatization of flexible rotors balancing with controlled balancing heads are set out in this paper. A computer is proposed to be the controller. With help of modal analysis of the vibrations generated by unbalance forces a relationship between successive positions of the cor

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

A distributed transfer function synthesis is developed for modelling and analysis of rotor systems assembled from multiple flexible and rigid components. The method delivers highly accurate and closed-form analytical solutions, and is capable of treating non-self-adjoint effects, general boundary co

High speed rotors in jet engines or turbopumps used in space vehicles are mostly operated at supercritical speeds, and their bearings and housings are usually supported resiliently from the frame in order to reduce critical speeds. However, when aircraft or space vehicles turn or respond to disturba

Automatic balancing is considered as a true feedback control problem, rather than as an automated sequence of separate operations. An adjustable correction mass must be positioned relative to a rectangular coordinate system rotating with the shaft such as to counterbalance the inherent system unbala