Dynamic behaviours of the rotor non-linear system with fixed

Abstract

The variational constraint approach is used to calculate the non-linear oil force of fixed—tilting-pad journal bearings. The non-linear oil force of a single pad is calculated by the proposed method in its coordinate system and its Jacobi matrix is calculated simultaneously for compatibility. The oil force, damping, and stiffness coefficients of the bearing are obtained by the assembly method. The unbalanced responses of the symmetrical rigid rotor dynamic system supported by fixed—tilting-pad journal bearings are analysed by the Runge—Kutta method and a Poincaré map. The effects of the pivot ratio and the preload on the stability of the rotor are analysed. The numerical results reveal complex non-linear behaviours of the system, such as periodic, period-doubling, period-13, and quasi-periodic motion.

Keywords

non-linear fixed—tilting-pad journal bearing rotor system bifurcation

Get full access to this article

View all access options for this article.

References

Adiletta

Guido

A. R.

Rossi

‘Nonlinear dynamics of a rigid unbalanced rotor in journal bearing. Part I: Theoretical analysis’

Nonlinear Dyn. 141 (1997): 57–87

Adiletta

Guido

A. R.

Rossi

‘Chaotic motions of a rigid rotor in short journal bearing’

Nonlinear Dyn. 103 (1996): 251–269

Brancati

Rocca

Russo

‘Journal orbits and their stability for rigid unbalanced rotors’

Trans. ASME, J. Tribol. 1174 (1995): 709–716

Y. J.

Liu

‘Nonlinear dynamic characteristics of hydrodynamic journal bearing-flexible rotor system’

Chin. J. Mech. Engng (Engl edn) 181 (2005): 59–64

Y. J.

Liu

Dai

Zhang

Y. F.

Y. B.

‘A method for determining the periodic solution and its stability of nonlinear bearing-rotor system based on observed states of the system’

Proc. IMechE, Part J: J. Engineering Tribology 223 J2 (2009): 137-149 DOI:10.1243/13506501JET457.

Y. J.

Dai

Hei

Zhang

Y. F.

Liu

‘Stability and bifurcation of a non-linear bearing-flexible rotor coupling dynamic system’

Proc. IMechE, Part C: J. Mechanical Engineering Science 223 C4 (2009): 835-849 DOI:10.1243/09544062JMES1190.

Chen

C. L.

Yau

H. T.

‘Chaos in the imbalance response of a flexible rotor supported by oil film bearings with non-linear suspension’

Nonlinear Dyn. 161 (1998): 71–90

Zhao

S. X.

Meng

Zhu

‘Stability and response analysis of symmetrical single-disk flexible rotor-bearing system’

Tribol. Int. 388 (2005): 749–756

D. X.

J. X.

‘A method to determine the periodic solution of the non-linear dynamics system’

J. Sound Vibr. 2751-2 (2004): 1–16

10.

D. X.

J. X.

‘A new method to determine the periodic orbit of a nonlinear dynamic system and its period’

Engng Comput. 204 (2005): 316–332

11.

Sundararajan

Noah

S. T.

‘Dynamics of forced nonlinear systems using shooting/arc-length continuation method-application to rotor systems’

Trans. ASME, J. Vibr. Acoust. 1191 (1997): 9–20

12.

Jing

J. P.

Meng

Sun

Xia

S. B.

‘On the non-linear dynamic behavior of a rotor-bearing system’

J. Sound Vibr. 2743-5 (2004): 1031–1044

13.

Wang

Zhang

Z. M.

‘Nonlinear oil film force database of multi-lobe bearings (in Chinese)’

J. Shanghai Univ. Tech. 144 (1993): 299–305

14.

Abu-Mahfouz

Adams

‘Numerical study of some nonlinear dynamics of a rotor supported on a three-pad tilting pad journal bearing (TPJB)’

Trans. ASME, J. Vibr. Acoust. 1273 (2005): 262–272

15.

Brancati

Rocca

Russo

‘Non-linear stability analysis of a rigid rotor on tilting-pad journal bearings’

Tribol. Int. 297 (1996): 571–578

16.

Zhang

Z. M.

Zhang

Y. Y.

Xie

Y. B.

Chen

Z. X.

Qiu

D. M.

Zhu

Hydrodynamic lubrication theory of journal bearing (in Chinese), 1986, (pp. 283–304 (Higher Education Press, Beijing)

Dynamic behaviours of the rotor non-linear system with fixed—tilting-pad journal bearings support

Abstract

Abstract

Keywords

Get full access to this article

References