A novel wavelet-based finite element method for the analysis of rotor-bearing systems
The rotor dynamic theory, combined with finite element method, has been widely used over the last three decades in order to calculate the dynamic parameters in rotor-bearing systems.Since the wavelet-based elements offer multi-scale models, particularly in modeling complex systems, the wavelet-based rotating shaft elements are constructed to model rotor-bearing systems.The effects of translational and rotatory inertia, the gyroscopic moments, the transverse shear deformations, and the internal viscous and hysteretic dampings are considered in the present formulation.Numerical examples and experimental studies show the correctness of the wavelet-based finite element model of rotor-bearing system.Results of forward and backward whirl speeds and damped stability are presented and compared with other published works.
B-spline wavelet on the interval Wavelet-based shaft elements Rotor-bearing system Modal analysis
Jiawei Xiang Dongdi Chen Xuefeng Chen Zhengjia He
School of Mechantronic Engineering,Guilin University of Electronic Technology,Guilin 541004.PR China School of Mechanical Engineering,Xi”an Jiaotong University,Xi”an 710049,PR China
国内会议
国家自然科学基金委员会高性能机床主轴中的关键科学问题”十二五“规划研讨会
长沙
英文
908-916
2010-07-17(万方平台首次上网日期,不代表论文的发表时间)