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Abstract

A mathematical model of a parallel-misaligned rotor system with mass eccentricity that is supported on journal bearings is discussed and its dynamic behaviours are analysed under the action of non-linear oil forces in the present work. First, some assumptions are introduced, such as the long bearing model, small parallel misalignment between rotors and tiny eccentricity of discs, the misaligned displacement constraint between two rotors is taken into account, and the motion equations are deduced by the Lagrange method of undetermined multiplier. Then, the rotor orbits, Poincaré maps, and bifurcation diagrams of the system are studied by a numerical method; the results show that there exists some unrevealed motions and phenomena in the parallel-misaligned and unbalanced rotor system such as period 2, 3, 6, and 7 motions besides chaotic oscillations and so on.

Keywords

dynamics rotor-bearing system misalignment unbalance non-linear oil film forces

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References

Gibbons

C. B.

, Coupling misalignment forces. In Proceedings of the Fifth Turbo-machinery Symposium, Gas Turbine Laboratories, Texas A&M University, 1976, pp. 111–116.

Dewell

D. L.

Mitchell

L. D.

, Detection of a misalignment disk coupling using spectrum analysis. ASME, J. Vibr. Acoust. Stress Reliab. Des., 106(1), 1984, 9–16.

, Analysis of the coupled lateral torsional vibration of a rotor-bearing system with a misaligned gear coupling. J. Sound Vibr., 243(2), 2001, 283–300.

Arumugam

Swarmamani

Prabhu

B. S.

, Effects of journal misalignment on the performance characteristics of three-lobe bearings. Wear 206(1) 1997, 122–129.

Jain

S. C.

Sharma

S. C.

Nagaraju

, Misaligned journal effects in liquid hydrostatic non-recessed journal bearings. Wear 210(1-2), 1997, 67–75.

Maragoni

R. P.

, Vibration analysis of a motor-flexible coupling-rotor system subject to misalignment and unbalance. Part I: Theoretical model and analysis. J. Sound Vibr., 176(5), 1994, 663–679.

Maragoni

R. P.

, Vibration analysis of a motor-flexible coupling-rotor system subject to misalignment and unbalance. Part II: Experimental validation. J. Sound Vibr., 176(5), 1994, 681–691.

Miah

Feng

N. S.

Hahn

E. J.

, A rig for testing lateral misalignment effects in a flexible rotor supported on three or more hydrodynamic journal bearings. Tribol. Int., 33(3–4) 2000, 197–204.

Lee

Y. S.

Lee

C. W.

, Modelling and vibration analysis of misaligned rotor-ball bearing systems. J. Sound Vibr., 224(1), 1999, 17–32.

10.

Lees

A. W.

Sinha

J. K.

Friswell

M. I.

, Estimating rotor unbalance and misalignment from a single run-down. In Materials Science Forum, Proceedings of the Fifth International Conference on Modern practice in stress and vibration analysis, Glasgow, UK, 2003, 440–441, pp. 229–236.

11.

Al-Hussain

K. M.

Redmond

, Dynamic response of two rotors connected by rigid mechanical coupling with parallel misalignment. J. Sound Vibr., 249(3) 2002, 483–498.

12.

Al-Hussain

K. M.

, Dynamic stability of two rigid rotors connected by a flexible coupling with angular misalignment. J. Sound Vibr., 266(2) 2003, 217–234.

13.

Prabhakar

Sekhar

A. S.

Mohanty

A. R.

, Vibration analysis of a misaligned rotor–coupling–bearing system passing through the critical speed. Proc. IMechE, Part C: J. Mechanical Engineering Science 215(12) 2001, 1417–1428.

14.

Hili

A. M.

Fakhfakh

Haddar

, Failure analysis of a misaligned and unbalanced flexible rotor. J. Failure Anal. Prev., 6(4) 2006, 73–82.

15.

Lees

A. W.

, Misalignment in rigidly coupled rotors. J. Sound Vib., 305(1) 2007, 261–271.

16.

, Nonlinear dynamics of a rotor system subject to a holonomic constraint of parallel misalignment. Dynam. Cont. Discrete Impul. Syst. Ser. B: Appl. Algorithms V14b(S5) 2007, 222–226.

17.

Slim

Molka

A. H.

Mohamed

Taher

Mohamed

, Dynamic behavior of hydrodynamic journal bearings in presence of rotor spatial angular misalignment. Mech. Mach. Theory 44(8) 2009, 1548–1559.

18.

Patel

T. H.

Darpe

A. K.

, Vibration response of misaligned rotors. J. Sound Vibr., 325(3) 2009, 609–628.

19.

Patel

T. H.

Darpe

A. K.

, Experimental investigations on vibration response of misaligned rotors. Mech. Syst. Signal Process., 23(7) 2009, 2236–2252.

20.

Inaya-Hussain

J. I.

Kanki

Mureithi

N. W.

, Chaos in the unbalance response of a rigid rotor in cavitated squeeze-film dampers without centering springs. Chaos Solitons Fractals 13(4) 2002, 929–945.

The dynamics of a parallel-misaligned and unbalanced rotor system under the action of non-linear oil film forces

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