NONLINEAR VIBRATIONS OF THE "ROTOR – JOURNAL BEARINGS" SYSTEM

Authors

  • A. Kydyrbekuly Research Institute of Mathematics and Mechanics
  • G. Ibrayev Al-Farabi Kazakh National University
  • S. Rakhmatullayeva L.N. Gumilev Eurasian National University

DOI:

https://doi.org/10.26577/JMMCS.2022.v115.i3.08
        129 82

Keywords:

Nonlinear Vibrations, Harmonic Balance Method, Journal Bearing, Sommerfeld’s Hypothesis, Rotor System, Self-Excited Vibrations

Abstract

The equations of motion of a rotor system mounted on journal bearings with a non-linear characteristic are solved by high-precision analytical methods. A new technique has been developed for solving nonlinear differential equations of motion of rotor systems mounted on journal bearings, taking into account nonlinearity of reaction forces of the lubricating layer. Algebraic systems of equations were obtained that allow us to determine amplitudes of nonlinear oscillations of the rotor and supports, and construct the amplitude-frequency characteristics of the system for varying parameters of the rotor, supports and fluid depending on the angular velocity of the rotor. The conditions and frequency intervals for the presence of self-oscillations of the rotor and supports were determined. The amplitude-frequency characteristics of the nonlinear oscillations of the rotor system are obtained, taking into account nonlinearity of characteristics of journal bearings. The optimal parameters depending on the size of the gap and the oil film, the mass of the supports, the fluids used as a lubricating layer in the journal bearing, with rigidity and damping coefficients, at which the magnitudes of the amplitudes of self-excited oscillations have optimal values, are obtained.

References

[1] Muszynska A., Rotordynamics (Boca Raton: Taylor & Francis, 2005): 1054.
[2] Greenhill L.M., "Critical Speeds Resulting from Unbalance Excitation of Backward Whirl Modes / L.M. Greenhill, G.A. Cornejo" , Design Engineering Technical Conferences (DETC’95), September 17-20, 1995, Boston Massachusetts, USA: Proceedings. Boston: ASME. 3B (DE-Vol. 84-2). (1995): 991–1000.
[3] Yamamoto T., Ishida Y., Linear and nonlinear rotor dynamics (New York, John Willey and Sons, 2001): 326.
[4] Leung A. Y. T. and Kuang J. L., "Chaotic Rotations of a Liquid – Filled Solid" , Journal of Sound and Vibration 302(3). (2007): 540–563.
[5] Adams M.L., Rotating machinery vibration (NY: MarcelDekker, 2001): 354.
[6] Newkirk B.L., Shaft whipping (General Electric Review. March, 1924).
[7] Newkirk B.L., Taylor H.D., Shaft whipping due to oil action in journal bearings (General Electric Review, August, 1925).
[8] Hagg A.C., "The influence of oil-film journal bearings on the stability of rotating machines" , Journal of Applied Mechanics (1946).
[9] Yukio Hоri, "A theory of oil whip" , J. of Applied Mechanics (1959).
[10] Kesten J., "Stabilit´e de la position de l’arbre dans un palier ¨a graissage hydrodynamique" , Wear, 5 (1960).
[11] Someyа Т., "Stabilit¨at einer in zylindrischen Gleitlagern laufen´elsen, unwunchtfreien Welle" , Ingenieur-Archiv, 33 (1963).
[12] Boecker G.F., "Sternlicht B. Investigation of Translatory fluid whirl in vertical machines" , Trans, of the ASME, January (1956).
[13] Schnittger J.R., "Development of a smooth running double-spool, gas-turbine rotor system" , ASME Paper 58 (A-l97) (1958).
[14] Pinkus О., "Experimental investigation of resonant whip" , Trans.of the ASME, July (1956).
[15] Hummel Ch., Kritische Drehzahlen als Folge der Nachgiebigkeit des Schmiermittels im Lager (VDI-Forschungsheft, 1926): 287
[16] Olimpiev V.I., "About the natural frequencies of the rotor on sliding bearings" , Proceedings of the USSR Academy of Sciences 93 (1960).
[17] Caргiz G., "On the vibrations of shafts rotating on lubricated bearings" , Ann. Mat. Pura Appl. IV (50) (1960)"223.
[18] Tondl A., Experimental invesrigation of self-excited vibrations of rotors due to the action of lubricating oil film in journal bearings Monographs and Memoranda of the National Research Institute of Heat Engineering. No 1 (Prague, 1961).
[19] Tondl A., "Einige Ergebnisse experimenteller Untersuchungen der Zapfenbewegung in Lagern" , Revue de m´ecanique appliqu´ee, VI(1) (1961).
[20] Diсk J., Alternating loads on sleeve bearings" , Philosophical Magazine 35 (1944).
[21] Shawki G.S.A., Whirling of a journal bearing experiments under no-load conditions (Engineering, 1955).
[22] Shawki G.S.A., "Analytical study of journal-bearing performance under variable loads" , Trans. of the ASME 3 (1956).
[23] Shawki G.S.A., "Journal bearing performance for combinations of steady, fundamental and harmonic components of load" , Proc. of the Inst. of Mech. Eng. 171 (28) (1957).
[24] Cameron A., Oil whirl in bearings (Engineering, 1955).
[25] Kr¨amer E., ’Der Einfluss des Olfilms von Gleitlagern auf di Schwingungen von Maschinenwellen" , VDI-Berichte 35 (1959).
[26] Kelzon A.S., Dynamics of rotors in elastic supports (Moscow, Science, 1982).
[27] Tondl A., Dynamics of rotors of turbogenerators (Publishing house "Energy 1971).
[28] Kelzon A.S., "Self-centering and balancing of a rigid rotor rotating in two elastic bearings" , DAN USSR 110 (1) (1956): 31–3

Downloads

How to Cite

Kydyrbekuly, A., Ibrayev, G., & Rakhmatullayeva, S. (2022). NONLINEAR VIBRATIONS OF THE "ROTOR – JOURNAL BEARINGS" SYSTEM. Journal of Mathematics, Mechanics and Computer Science, 115(3), 78–90. https://doi.org/10.26577/JMMCS.2022.v115.i3.08