Sage Journals: Discover world-class research

Abstract

Profile bore bearings are important components in high-speed rotating machinery. In order to provide bearing designers with some useful information on the performances of different bearing profiles, this paper presents a theoretical evaluation of five commonly used types of bearing through a comparison of their steady state performance characteristics. The bearings investigated were two-lobe circular, elliptical (lemon-bore), offset-half, three-lobe and four-lobe types. Their operating characteristics, including the minimum film thickness, maximum temperature, power loss and flowrate, have been calculated using a computerized detailed thermohydrodynamic model developed by the authors. The influences of the shaft speed, specific load, bearing pre-load ratio and lubricant viscosity index on the performance of the bearings have been investigated. In addition, the effect of oil groove angle and load orientation on a four-lobe bearing is briefly examined. Results show that, in general, the performance of the non-circular bearings is inferior to that of the circular bearing; of the non-circular types, the offset-half and elliptical bearings have better overall performances. Also, it is shown that reasonably increasing the angular size of an oil groove has a favourable effect on the static performance of a multi-lobe bearing.

Keywords

bearing performance prediction plain hydrodynamic journal bearing steady load characteristics temperature prediction lubrication fixed profile bore

Get full access to this article

View all access options for this article.

References

Pinkus

Sternlicht

Theory of Hydrodynamic Lubrication, 1961 (McGraw-Hill, New York).

Garner

D. R.

Lee

C. S.

Martin

F. A.

Stability of profile bore bearings: Influence of bearing type selection, Tribology Int., 1980, 13, 204–210.

Flack

R. D.

Lanes

R. F.

Effects of three-lobe bearing geometries on rigid-rotor stability

ASLE Trans., 1982, 25, 221–228.

Lund

J. W.

Thomsen

K. K.

A calculation method and data for the dynamic coefficients of oil-lubricated journal bearings In Topics in Fluid Film Bearing and Rotor Bearing System Design and Optimization, ASME Design Engineering Conference, Chicago, April 1978, ASME Publication 100118, 1978, pp. 1–28 (American Society of Mechanical Engineers, New York).

McCallion

Yousif

Lloyd

The analysis of thermal effects in a full journal bearing

Trans. ASME, J. Lubric. Technol., 1970, 92, 578–587.

Lund

J. W.

Hansen

P. K.

An approximate analysis of the temperature conditions in a journal bearing. Part 1: Theory

Trans. ASME, J. Tribology, 1984, 106, 228–236.

Mitsui

Hori

Tanaka

Thermohydrodynamic analysis of cooling effect of supply oil in circular journal bearing

Trans. ASME, J. Lubric. Technol., 1983, 105, 414–421.

Boncompain

Fillon

Frene

Analysis of thermal effects in hydrodynamic bearings

Trans. ASME, J. Tribology, 1986, 108, 219–224.

Khonsari

M. M.

Jang

J. Y.

Fillion

On the generalization of thermohydrodynamic analysis for journal bearings

Trans. ASME, J. Tribology, 1996, 118, 571–579.

10.

Vijayaraghavan

An efficient numerical procedure for thermo-hydrodynamic analysis of cavitating bearings

Trans. ASME, J. Tribology, 1996, 118, 555–563.

11.

Tucker

P. G.

Keogh

P. S.

On the thermal state in a hydrodynamic bearing with a whirling journal using CFD techniques

Trans. ASME, J. Tribology, 1996, 118, 356–363.

12.

Han

Paranjpe

R. S.

A finite volume analysis of the thermohydrodymamic performance of finite journal bearings

Trans. ASME, J. Tribology, 1990, 112, 557–566.

13.

Ferron

Frene

Boncompain

A study of the thermohydrodynamic performance of a plain journal bearing; comparison between theory and experiments

Trans. ASME, J. Tribology, 1983, 105, 422–428.

14.

Khonsari

M. M.

Wang

S. H.

On the fluid-solid interaction in the reference to thermohydrodynamic analysis of journal bearings

Trans. ASME, J. Tribology, 1991, 113, 398–404.

15.

Knight

J. D.

Barret

L. E.

An approximate solution technique for multilobe journal bearings including thermal effects, with comparison to experiment

ASLE Trans., 1983, 30 (3), 316–323.

16.

Paranjpe

R. S.

Han

A study of the thermohydrodynamic performance of steadily loaded journal bearings

STLE, Tribology Trans., 1994, 37 (4), 679–690.

17.

Knight

J. D.

Barret

L. E.

Analysis of axially grooved journal bearings with heat transfer effects

ASLE Trans., 1987, 30 (3), 316–323.

18.

Gethin

D. T.

Predictive models for the design of profile bore bearings

Trans. ASME, J. Tribology, 1990, 112, 156–164.

19.

Basri

S. B.

Gethin

D. T.

A comparative study of the thermal behaviour of profile bore bearing

Tribology Int., 1990, 23, 265–276.

20.

Hussain

Mistry

Biswas

Athre

Thermal analysis of noncircular bearings

Trans. ASME, J. Tribology, 1996, 118, 246–254.

21.

Mittwollen

Glienicke

Operating conditions of multi-lobe journal bearings under high thermal loads

Trans. ASME, J. Tribology, 1990, 112, 330–340.

22.

M.-T.

Taylor

C. M.

A theoretical and experimental study of thermal effects in a plain circular steadily loaded journal bearing. In Proceedings of IMechE Seminar on

Plain Bearings—Energy Efficiency and Design, 1992, pp. 31–44 (Mechanical Engineering Publications Limited, London).

23.

M.-T.

Taylor

C. M.

Thermal dissipation in elliptical bore bearings. In Proceedings of the 20th Leeds-Lyon Symposium on

Tribology—Dissipative Process in Tribology, 1994, pp. 431–444 (Elsevier, Amsterdam).

24.

M.-T.

Taylor

C. M.

Prediction of temperature fade in the cavitation region of two-lobe journal bearings

Proc. Instn Mech. Engrs, Part J, Journal of Engineering Tribology, 1994, 208 (J2), 133–139.

25.

Pinkus

Thermal Aspects of Fluid Film Tribology, 1990 (American Society of Engineers, New York).

26.

Möller

U. J.

Boor

Lubricants in Operation, English language edition, 1996 (Mechanical Engineering Publications Limited, London).

27.

Goh

K. S.

An experimental study of the thermal behaviour of circular and non-circular plain journal bearings. PhD thesis, University of Leeds, April 1997.

28.

Boncompain

Frene

Thermohydrodynamic analysis of a finite journal bearing, static and dynamic characteristics. In Proceedings of the Sixth Leeds-Lyon Symposium on

Tribology—Thermal Effects in Tribology, 1980, pp. 33–41 (Elsevier, Amsterdam).

A comparative thermal analysis of the static performance of different fixed profile bore plain bearings

Abstract

Abstract

Keywords

Get full access to this article

References