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Clearance and lubricant selection for avoiding seizure in a circumferential groove journal bearing based on a lumped model analysis

Published online by Cambridge University Press:  04 November 2011

Alex-Florian Cristea*
Affiliation:
University Politehnica Bucharest, Mechanical Engineering & Mechatronics Faculty, Machine Elements & Tribology Department, Splaiul Independentei 313, Bucharest 060042, Romania Institut Pprime, CNRS, Université de Poitiers, ENSMA, UPR 3346, Dép. Génie Mécanique et Systèmes Complexes, SP2MI, 11 boulevard Marie et Pierre Curie, BP 30179, 86962 Futuroscope Chasseneuil Cedex, France
Mircea Pascovici
Affiliation:
University Politehnica Bucharest, Mechanical Engineering & Mechatronics Faculty, Machine Elements & Tribology Department, Splaiul Independentei 313, Bucharest 060042, Romania
Michel Fillon
Affiliation:
Institut Pprime, CNRS, Université de Poitiers, ENSMA, UPR 3346, Dép. Génie Mécanique et Systèmes Complexes, SP2MI, 11 boulevard Marie et Pierre Curie, BP 30179, 86962 Futuroscope Chasseneuil Cedex, France
*
aCorresponding author: [email protected]
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Abstract

This study presents a new simple lumped model for analyzing the thermally induced seizure of fully lubricated eccentric circumferential groove journal bearings (CGJB). The model represents a significant upgrade of a previous seizure lumped model developed by Pascovici & Kucinschi, in 2002. Main upgrades consist of: eccentric operation, introduction of hydrodynamic lubricant flow rate component, and evaluation of friction power losses based on the short bearing theory with Barwell’s hypothesis on the divergent zone. The viscosity–temperature variation is replaced with Tipei’s viscosity-clearance relationship, as in the previous model. The decrease of viscosity, as a consequence of temperature increase, does not always limit clearance loss, and the seizure process ends with a concentric journal-bushing merged system. Although CGJB’s are less sensitive to this seizure mechanism, the threat still exists and must be avoided. As a result, bearing designers and users should check whether if several safe-operation criteria are met. A recent Institute Pprime experiment on CGJB’s provided a base set of operating parameters, from which numerical simulations have been performed to determine in what conditions the CGJB fails, under thermally induced seizure.

Type
Research Article
Copyright
© AFM, EDP Sciences 2011

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References

J.M. Conway-Jones, A.J. Leopard, Plain bearing damage, In Proc. Fourth Turbomachinery Symposium, Gas Turbines Laboratories, Texas A&M University, College Station, Texas, USA 14-16 (1976) 55–63
Bishop, J.L., Ettles, C.M.McC., The seizure of journal bearings by thermoelastic mechanisms, in Elsevier Wear 79 (1982) 3752 CrossRefGoogle Scholar
Pascovici, M.D., Khonsari, M.M., Jang, J.Y., On the modeling of a thermomechanical seizure, (Technical Brief), in ASME J. Tribol. 117 (1995) 744747 CrossRefGoogle Scholar
Monmousseau, P., Fillon, M., Frene, J., Transient thermoelastohydrodynamic study of tilting-pad journal bearings – comparison between experimental data and theoretical results, in ASME J. Tribol. 119 (1997) 401407 CrossRefGoogle Scholar
Monmousseau, P., Fillon, M., Frene, J., Transient thermoelastohydrodynamic study of tilting-pad journal bearings – application to bearing seizure, in ASME J. Tribol. 120 (1998) 319324 CrossRefGoogle Scholar
Monmousseau, P., Fillon, M., Transient thermohydrodynamic analysis for safe operating conditions of a tilting-pad journal bearing during start-up, in Elsevier Trib. Int. 33 (2000) 225231 CrossRefGoogle Scholar
Pascovici, M.D., Kucinschi, B.R., Seizure of a concentric circumferential-groove journal bearing, in 1st EDF-LMS Workshop, Bearings Under Severe Operating Conditions, Futuroscope, France, 19 (2002) F1F8 Google Scholar
N. Tipei, W.A. Gross, Theory of lubrication: with applications to liquid- and gas-film lubrication, C.A. Stanford University Press, 506 pp., ISBN 978-0196902159, 1962
Wang, Q., Seizure failure of journal-bearing conformal contacts, in Elsevier Wear 210 (1997) 816 CrossRefGoogle Scholar
F.T. Barwell, S. Lingard, The thermal equilibrium of plain journal bearings, In Proc. 6th Leeds-Lyon Symposium on Tribology, Thermal Effects in Tribology, Lyon, France, 18–21, 1979, pp. 24–32
Cristea, A.F., Bouyer, J., Fillon, M., Pascovici, M.D., Pressure and temperature field measurements of a lightly leaded circumferential groove journal bearing, Trib. Trans. 54 (2011) 806823 CrossRefGoogle Scholar
G. Vogelpohl, Betriebssichere Gleitlager. Berechnung- sverfahren für Konstruktion und Betrieb, Springer-Verlag, Berlin, 315 pp. (in German)