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Abstract

This paper analyses the complexity of the unbalance response possible with a simple rigid rotor supported by an eccentric squeeze film damper. The damper forces are obtained from the ‘π’ film short bearing approximation to the Reynolds equation and a fourth-order Runge-Kutta integration is used to evaluate the rotor response. Poincaré maps, rotor trajectories, bifurcation diagrams and power spectra are used to elucidate and to illustrate the diversity of the system behaviour. It is shown that for a large unbalance and static eccentricity ratio, the system can exhibit undesirable jump phenomenon and subharmonic, quasi-periodic and even chaotic motions, which limit the operating conditions at which dampers should be used.

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References

Magge

Philosophy, design and evaluation of soft-mounted engine rotor systems. J. Aircr., 1975, 12, 109–117.

Holmes

Dogan

Investigation of a rotor bearing assembly incorporating a squeeze-film damper bearing. J. Mech. Sci., 1982, 24(3), 129–137.

Cookson

R. A.

Kossa

S. S.

The effectiveness of squeeze film damper bearings supporting rigid rotors without a centralising spring. Int. J. Mech. Sci., 1979, 21, 639–650.

Taylor

D. L.

Kumar

B. R. K.

Closed form, steady-state solution for the unbalance response of a rigid rotor in a squeeze film damper. Trans. ASME J. Engng for Power, July 1983, 105, 551–559.

Mohan

Hahn

E. J.

Design of squeeze film damper supports for rigid rotors. Trans. ASME J. Engng for Industry, August 1974, 96, 976–982.

Simandiri

Hahn

E. J.

Experimental evaluation of the predicted behaviour of squeeze-film-bearing-supported rigid rotors. J. Mech. Engng Sci., 1979, 21, 439–451.

X. H.

Taylor

D. L.

Nonsynchronous motion of squeeze film damper systems. Trans. ASME J. Tribol., 1987, 109, 169–176.

Botman

Experiments on squeeze film dampers for turbomachinery. Trans. ASME J. Engng for Power, 1976, 98, 393–400.

Nikolajsen

J. L.

Holmes

Investigation of squeeze-film isolators for vibration control of a flexible rotor. Proc. Instn Mech. Engrs Part C, 1979, 21, 247–252.

10.

Sykes

J. E. H.

Holmes

The effects of bearing misalignment on the non-linear vibration of aero-engine rotor-damper assemblies. Proc. Instn Mech. Engrs Part G, 1990, 204(G2), 83–99.

11.

Nataraj

Nelson

H. D.

Periodic solutions in rotor dynamic systems with nonlinear supports: a general approach. Trans. ASME J. Vibr. Acoust. Stress and Reliability in Des., 1989, 111, 187–193.

12.

Chen

P. Y. P.

Hahn

E. J.

Wang

G. Y.

Subharmonic oscillation in squeeze film damped rotor bearing systems without centralizing springs. ASME paper 93-GT-428, 7 pp.

13.

Zhao

J. Y.

Linnett

I. W.

McLean

L. J.

Unbalance response and stability of eccentric squeeze film damped nonlinear rotor bearing system. Submitted for publication to The Japan Society of Mechanical Engineers, Ms 93–3021.

14.

Rudiger

From equilibrium to chaos: practical bifurcation and stability analysis, 1988 (Elsevier Science Publishing, New York).

15.

Pinkus

Sternlicht

Theory of hydrodynamic lubrication, 1961 (McGraw-Hill, New York).

16.

Szemplinska-Stupnicka

Secondary resonances and approximate models of routes to chaotic motion in non-linear oscillators. J. Sound and Vibr., 1987, 113, 155–172.

Subharmonic,Quasi-Periodic and Chaotic Motions of a Rigid Rotor Supported by an Eccentric Squeeze Film Damper

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