论文信息 - Periodic response of multi-disk rotors with bearing clearances

Periodic response of multi-disk rotors with bearing clearances

Abstract The forced steady state response of a multi-disk rotor system involving a clearance at one of the bearings is determined by using a harmonic balance approach. The impedance method is applied to each of the harmonic steady state components in order to reduce the system to its displacement at the non-linear bearing support. The results reveal the interrelated roles of the bearing clearance, mass eccentricity and side force in producing dangerous subharmonics. The significant effects of the strong non-linearity of a bearing clearance are studied as related to the various system parameters. The results show that the approach developed in this study is computationally superior to numerical integration methods in analyzing multi-disk rotor systems with strong non-linearity.

[1] Dara W. Childs. Fractional-frequency rotor motion due to nonsymmetric clearance effects , 1982 .

[2] Raymond J. Cipra,et al. On the Dynamic Simulation of Large Nonlinear Mechanical Systems. Part 1: An Overview of the Simulation Technique. Substructuring and Frequency Domain Considerations , 1981 .

[3] S. Saito,et al. Calculation of Nonlinear Unbalance Response of Horizontal Jeffcott Rotors Supported by Ball Bearings With Radial Clearances , 1985 .

[4] F. F. Ehrich,et al. High Order Subharmonic Response of High Speed Rotors in Bearing Clearance , 1988 .

[5] S. T. Noah,et al. Nonlinear steady-state response of a rotor-support system , 1987 .

[6] S. T. Noah,et al. Bifurcation analysis for a modified Jeffcott rotor with bearing clearances , 1990 .

[7] H. D. Nelson,et al. Periodic Solutions in Rotor Dynamic Systems With Nonlinear Supports: A General Approach , 1989 .

[8] T. Idehara,et al. MEMOIRS OF THE FACULTY OF ENGINEERING , 1977 .

[9] S. T. Noah. Rotordynamic Analysis of the SSME Turbopumps Using Reduced Models , 1984 .

[10] R. Beatty. Differentiating Rotor Response Due to Radial Rubbing , 1985 .

[11] H. D. Nelson,et al. Periodic response investigation of large order non-linear rotordynamic systems using collocation , 1990 .