Sage Journals: Discover world-class research

Abstract

Analyses and design data for plain journal bearings rarely take into account the phenomenon of film reformation. The consideration of the re-establishment of the lubricant film after the cavitation region is difficult in a number of ways. The importance of allowing for reformation is, however, being increasingly recognized. This is particularly true as regards the satisfactory prediction of lubricant flowrate and the thermal operating characteristics of a bearing. The authors have previously implemented a cavitation algorithm to enable the cavitation region in a plain journal bearing to be located automatically and efficiently in a computer analysis. In Part I of the present paper theoretical results have been presented for the case of a plain bearing with a square-ended, axial groove located at the position of maximum film thickness. The second part of the paper gives details of an experimental investigation designed to establish the validity of the analysis.

Get full access to this article

View all access options for this article.

References

Dowson

Miranda

A. A. S.

Taylor

C. M.

Implementation of an algorithm enabling the determination of film rupture and reformation boundaries in a liquid film bearing. Proceedings of the 10th Leeds-Lyon Symposium on Tribology: developments in numerical and experimental methods applied to tribology, 1984 (Butterworths).

Elrod

H. G.

Adams

M. L.

A computer program for cavitation and starvation problems. Proceedings of the 1st Leeds-Lyon Symposium on Tribology: cavitation and related phenomena in lubrication, 1975, 37–42 (Mechanical Engineering Publications Limited, London).

Elrod

H. G.

A cavitation algorithm. Trans ASME, J. Lubric. Tech. July 1981, 103, 350–354.

Calculation methods for steadily loaded pressure fed hydrodynamic journal bearings, Engineering Sciences Data Unit (ESDU International Ltd). Item No. 66023, 1966.

Miranda

A. A. S.

Oil flow, cavitation and film reformation in journal bearings including an interactive computer-aided design study. PhD Thesis, Dept of Mech. Engng, Univ. of Leeds, 1983.

Cole

J. A.

Hughes

C. J.

Oil flow and film extent in complete journal bearings. Proc. Instn Mech. Engrs, 1956, 170, 499.

Hargreaves

D. J.

Taylor

C. M.

An experimental and theoretical study of lubricant film extent and flowrate in grooved rectangular pad slider thrust bearings. Proc. Instn Mech. Engrs, Part C, 1984, 198, 225–233.

Hargreaves

D. J.

Taylor

C. M.

An experimental and theoretical study of lubricant flowrate in static, grooved, rectangular thrust bearings. J. Mech. Engng Sci., 1982, 24(1), 51–54.

Etsion

Pinkus

Solutions for finite journal bearings with new upstream boundary conditions. Trans. ASME, J. Lubric. Tech., 1975, 97(1).

10.

Dowson

Taylor

C. M.

Cavitation in bearings. Ann. Rev. Fluid Mechanics, Vol. 11, Annual Reviews, 1979.

11.

Floberg

On hydrodynamic lubrication with special reference to sub-cavity pressures and number of streamers in cavitation regions. Acta. Poly. Scand., Mech. Engng Series, ME19, 1965.

12.

Floberg

Sub-cavity pressures and number of oil streamers in cavitation regions with special reference to the infinite journal bearing. Acta. Poly. Scand., Mech. Engng Series, ME37, 1968.

13.

Coyne

J. C.

Elrod

H. G.

Conditions for the rupture of a lubricating film. Part I: Theoretical model. Trans. ASME, J. Lubric. Tech., 1970, 92(3).

14.

Coyne

J. C.

Elrod

H. G.

Conditions for the rupture of a lubricating film. Part II: New boundary conditions for Reynolds' equation. Trans ASME, J. Lubric. Tech., 1971, 93(1).

15.

Taylor

C. M.

Separation cavitation: Solutions for the infinite width cylinder-plane and journal bearing configurations. J. Mech. Engng Sci., 1973, 15(3), 237–239.

The Prediction of Liquid Film Journal Bearing Performance with a Consideration of Lubricant Film Reformation: Part 2: Experimental Results

Abstract

Get full access to this article

References