Dynamic Analysis of Geared Shaft Systems By Using a Continuous System Model

Spiral bevel gears can transmit motion between two rotors, which are commonly perpendicular to each other. In this paper, the dynamic analysis of a spiral bevel-geared rotor-bearing system is studied. Firstly, the constraint equation describing the relationship between the generalized displacements

The dynamic behaviour of structures-in particular, rotors containing cracks-is a subject of considerable current interest. Several researchers have developed models of cracked rotor systems considering mainly the transverse surface crack. In the present study finite element (FEM) analysis of a rotor

The coupled lateral}torsional dynamics of parallel rotor-bearing systems has been intensively investigated. However, little attention has been paid to the analysis of coupled vibrations of angled rotor}bearing systems so that the torsional and the lateral vibrations of those systems are usually anal

A lumped mass model is proposed to study the parametric instability of a cantilever shaft}disk system subjected to axial and follower loads, respectively. In the present study, a set of linearized sti!ness in#uence coe$cients of a longitudinally loaded cantilever shaft is derived. The mathematical m

Al~traet--The problem of the representation of continuous time systems by difference equations is studied. A solution is proposed using a sample integration technique. The convolution integrals are approximated by digital filters resulting in an arbitrary high accuracy in a wide frequency band.

A new magnetic gear system with an actuator made by an electromagnet is proposed. Vibration due to the system parameter variations or external disturbance is absorbed by changing the magnetic fluxes in this electromagnet, and the controller is designed by variable structure system theory. Theoretica