A novel wavelet-based finite element method for the analysis of rotor-bearing systems

A powerful matrix reduction technique is developed to analyze rotor-bearing systems. by using the modal data of the isotropic undamped stationary parts. This method gives significant reductions in computation time and core size, while maintaining accuracy and flexibility in use. It does not require

A finite element model belonging to a C 0 -class formulation is presented for the study of whirl speeds and stability of rotor-bearing systems. In addition to the effects of translational and rotatory inertia and the gyroscopic moments, the combined effects of transverse shear deformations and the i

Unbalance response analysis is essential in the dynamic analysis of rotor-bearing systems. However, there still remains a problem in the aspect of computational efficiency for unbalance response analysis of large rotor-bearing systems. Gyroscopic terms and local bearing parameters in rotor-bearing s

This paper presents the dynamic responses of the coupled textile/rotor system by finite element analysis. When textile is wound either on or off the rotor, the system is non-conservative because mass, inertia and eccentricity of the unbalance of rotor change with time, and also the length of textile