Sage Journals: Discover world-class research

Abstract

Analytical procedures are developed for predicting the dynamic behavior of rotor shaft systems supported on radial rolling element bearings. In Section 3 of this article, a C° four-node isoparametric rotating-shaft finite element model is developed using the finite element displacement method, including the translational motions, rotary inertia, shear deformations, gyroscopic moments, and system proportional damping. Euler angles are employed to monitor the orientation of the deflected rotor in space. In Section 5, a nonlinear bearing model is proposed, taking into account the rolling elements speed of rotation, nonlinear stiffness, clearance(s) (with allowance for coupling between the radial clearance and deadband), and elastic interaction with the rotating shaft. The bearing nonlinear reaction forces and the gyroscopic loading vector are treated as external loads. With rigid disks included, Lagrange's equations are used to derive equations of motion that, in turn, are decoupled using modal analysis, expressed in the normal coordinates representation. The above analyses are implemented in the finite element program DAMRO 1. With results in both the time domain and frequency domain being discussed, a case study concludes that bearing clearance has apronounced effect on the system chaos and the bearing loads. The presented analyses offer a more advanced modeling tool in the field of nonlinear rotor dynamics.

Keywords

Key Words: Finite element rolling bearing nonlinearities rotor dynamics frequency spectrum

Get full access to this article

View all access options for this article.

References

Abduljabbar, Z. , ElMadany, M.M. , and Al Abdulwahab, A.A. ,1996, "Active vibration control of a flexiblerotor," Computers and Structures 58(3), 499-511.

Adams, M.L. , 1980, "Nonlinear dynamics of flexible multi-bearing rotors ," Journal of Sound and Vibration 71(1),129-144.

Archer, J.S. , 1963, "Consistent mass matrix for distributed mass systems ," Journal of the Structural Division, Proceedings of the ASCE 89,161-178.

Archer, J.S. , 1965, "Consistent matrix formulations for structural analysis using finite-element techniques," AIAA Journal 3(10), 1910-1918.

Childs, D.W. , 1978, "The space shuttle main engine high-pressure fuel turbopump rotordynamic instability problem," ASME Journal of Engineering for Industry 100, 48-57.

Childs, D.W. and Moyer, A.S. , 1985, "Vibration characteristics of the HPOTP (high-pressure oxygen turbopump) of the SSME (space shuttle main engine)," ASME Journal of Engineering for Gas Turbines and Power 107, 152-159.

Dennis, A.J. , Eriksson, R.H. , and Seitelman, L.H. , 1975, "Transient response analysis of damped rotor systems by the normal mode method," ASMEPaperNo. 75- GT-58, Gas Turbine Conference and Products Show, Houston, TX, March 2-6.

El-Saeidy, F.M.A. , 1990, "Effect of backlash on vibration spectrum in spur gearboxes incorporating ball bearings with radial clearance," in Proceedings of the 8th International Modal Analysis Conference , Kissmmee, FL, January 29-Feburary 1,1158-1164.

El-Saeidy, F.M.A. , 1991, "Effect of tooth backlash and ball bearing deadband clearance on vibration spectrum in spur gearboxes," Journal of the Acoustical Socity of America 89(6), 2766-2773.

10.

El-Saeidy, F.M.A. , 1993, DAMRO 1: A General Purpose Finite Element Program .

11.

Gash, R. 1976, "Vibration of large turbo-rotors in fluid-film bearings on an elastic foundation," Journal of Sound and Vibration 47(1), 53-73.

12.

Gmur, T.C. and Rodrigues, J.D. , 1991, "Shaft finite elements for rotor dynamics analysis ," ASME Journal of Vibration and Acoustics 113, 482-493.

13.

Gunter, E.J. , 1967, "The influence of internal friction on the stability of high speed rotors," ASME Journal of Engineering for Industry 89(4), 683-688.

14.

Harris, T.A. , 1984, Rolling Bearing Analysis, John Wiley , New York.

15.

Hashish, E. and Sankar, T.S. , 1984, "Finite element and modal analysis of rotor-bearing systems under stochastic loading conditions," ASME Journal of Vibration, Acoustics, Stress, and Reliability in Design 106, 80-89.

16.

Hughes, T.J.R. , 1987, The Finite Element Method-Linear Static and Dynamic Finite Element Analysis, Prentice Hall, Englewood Cliffs, NJ.

17.

Kim, Y.B. and Noah, S.T. , 1991, "Steady-state analysis of a nonlinear rotor-housing system ," ASME Journal of Engineering for Gas Turbines and Power 113, 550-556.

18.

Lund, J.W. and Orcutt, F.K. , 1967, "Calculations and experiments on the unbalance response of a flexible rotor," ASME Joumal of Engineering for Industry 89, 785-796.

19.

Nelson, H.D. , 1980, "A finite rotating shaft element using Timoshenko beam theory," ASME Joumal of Mechanical Design 102, 793-803.

20.

Nelson, H.D. and McVaugh, J.M. , 1976, "The dynamics of rotor-bearing systems using finite elements ," ASME Journal of Engineering for Industry 98, 593-600.

21.

Ratan, S. and Rodriguez, S. , 1992a, "Transient dynamic,analysis of rotors using SMAC techniques: Part 1. Formulation," ASME Journal of Vibration and Acoustics 114, 447-481.

22.

Ratan, S. and Rodriguez, S. , 1992b, "Transient dynamic analysis of rotors using SMAC techniques: Part 2. Numerical study," ASME Journal of Vibration and Acoustics 114, 482-488.

23.

Ruhl, R.L. and Booker, J.F. , 1972, "A finite element model for distributed parameter turborotor systems," ASME Journal of Engineering for Industry 94, 126-132.

24.

Sankaravelu, A. , Noah, S.T. , and Burger, C.P. , 1994, "Bifurcation and chaos in ball bearings," ASME Winter Annual Meeting, Symposium on Stochastic and Nonlinear Dynamics, AMD-Vol. 192, DE-Vol. 78, Chicago, 313-325.

25.

Uhrig, R. , 1966, "The transfer matrix method seen as one method of structural analysis among others," Journal of Sound and Vibration 4(2), 136-148.

26.

Zorzi, E.S. and Nelson, H.D. , 1977, "Finite element simulation of rotor-bearing systems with internal damping," ASME Journal of Engineering for Power 99 (1), 71-76.

Finite Element Modeling of a Rotor Shaft Rolling Bearings System With Consideration of Bearing Nonlinearities

Abstract

Keywords

Get full access to this article

References