Sage Journals: Discover world-class research

Abstract

In most line contacts, the film thickness can be adequately determined using a quasi-static analysis. The one exception appears to occur when the direction of entrainment changes. Here, the quasi-static approach predicts that the film will fall to zero while, in practice, there will always be a finite clearance between the surfaces. It was shown in a previous paper that this minimum clearance depends upon the rate of change of entrainment velocity, and limit expressions for the film thicknesses in the four regimes of lubrication were developed.

The present paper examines the transition between the rigid-isoviscous and the elastic-isoviscous regimes and determines how the minimum film thickness behaves in this transition zone.

Get full access to this article

View all access options for this article.

References

Dowson

Higginson

G. R.

Elasto-hydrodynamic lubrication, the fundamentals of roller and gear lubrication, 1966 (Pergamon Press, Oxford).

Lubrecht

A. A.

Ten Napel

W. E.

Bosma

Solving Reynolds' equation for EHL line contacts by application of a multi-grid method. Proceedings of Thirteenth Leeds-Lyon Symposium on Tribology, Leeds, 1987, pp. 175–182.

Venner

C. H.

Multilevel solution of the EHL line and point contact problems, 1991, Proefschrift (Universiteit Twente, Enschede, The Netherlands); citing H. Moes, personal communication, 1989.

Hooke

C. J.

The elastohydrodynamic lubrication of heavily loaded contacts. J. Mech. Engng Sci., 1977, 19, 149–156.

ESDU. Film thickness in lubricated Hertzian contacts (EHL). Part 1: two dimensional contacts (line contacts). Item 85027, Engineering Sciences Data Sheets, October 1985.

Hooke

C. J.

The minimum film thickness in line contacts during reversal of entrainment. J. Tribology, 1992, Trib-16.

Dowson

Taylor

C. M.

Zhu

A transient elastohydrodynamic lubrication analysis of a cam and follower. International Conference on Frontiers of tribology, Institute of Physics, Stratford-upon-Avon, 1991.

A full numerical solution for general transient elastohydrodynamic line contacts and its application. Wear, 1988, 121, 143–159.

A numerical analysis for the transient EHL process of a cam-tappet pair in I. C. engine. J. Tribology, 1989, 111, 413–417.

10.

Dowson

Ruddy

B. L.

Economu

P. N.

The elastohydrodynamic lubrication of piston rings. Proc. R. Soc., 1983, A386, 409–430.

11.

Hooke

C. J.

The elastohydrodynamic lubrication of soft, highly deformed contacts under conditions of nonuniform motion. J. Tribology, 1986, 108, 545–550.

12.

Hooke

C. J.

The calculation of film thickness in soft, highly deformed contacts under dynamic conditions. Proc. Instn Mech. Engrs, Part C, 1987, 201(C3), 171–179.

13.

England

A. H.

Complex variable methods in elasticity, 1971 (Wiley-Interscience).

14.

Johnson

K. L.

Regimes of elastohydrodynamic lubrication. J. Mech. Engng Sci., 1970, 12, 9–12.

15.

Hirano

Dynamic problems in inverse hydrodynamic lubrication. Proceedings of Third Conference on Fluid sealing, Cambridge, 1967, paper F1, pp. 116 (BHRA).

The Minimum Film Thickness in Lubricated Line Contacts during a Reversal of Entrainment—Isoviscous Behaviour

Abstract

Get full access to this article

References