저널 베어링으로 지지된 회전 축계의 유한 요소 해석

Abstract

In the design of modern rotating machinery, it is often necessary to improve the performance of rotor-bearing system. This generally suggests high shaft speeds, multiple stages, highly loaded rotating components, large spacing between stages, etc. The trend towards greater flexibility results in critical speeds in or near the operating speed, which may cause severe vibration problems. Also, journal bearing have important role to support the rotor system. Therefore, in this paper the static and dynamic characteristics of journal bearing using finite element method have studied with comparing the change of temperature and clearance. The vibration analysis of rotor-bearing system for induction motor was performed using the journal bearing data. The dynamic characteristics of rotor system are analyzed by the finite element method based on Timoshenko beam theory. The natural frequency, mode shape, critical speed map, stationary unbalance response and stability were performed for improving the dynamic performance of rotor-bearing system.