Sage Journals: Discover world-class research

Abstract

As a rough surface passes under an elastohydrodynamically lubricated (EHL) contact the surface profile is modified, with long-wavelength components being reduced in amplitude. The behaviour of the shorter wavelengths is complex. Where both surfaces have the same velocity-pure rolling-the roughness passes through the contact unaltered. Where there is relative slip and the fluid is assumed to be piezoviscous and Newtonian, analysis predicts that the roughness will be flattened. It is replaced by a surface profile with a different wavelength travelling through the contact at the entrainment velocity. The amplitude of this complementary wave may be smaller or larger than the roughness it replaces.

This behaviour has not been found experimentally and does not occur in soft contacts where piezoviscous effects are absent. This paper extends a previous analysis for Newtonian fluids to include shear rate effects. It shows that while these effects are relatively unimportant for pure rolling they have a major influence where there is relative sliding of the surfaces. The formation of the complementary wave is largely eliminated and, at short wavelengths, instead of being modified the original roughness passes unchanged through the contact.

Keywords

surface roughness EHL non-Newtonian

Get full access to this article

View all access options for this article.

References

Venner

C. H.

Multi-level solution of the elastohydrodynamic line and point contact problems

Proefschrift, Universiteit Twente, Netherlands, 1991.

Venner

C. H.

Couhier

Lubrecht

A. A.

Greenwood

Amplitude reduction of waviness in transient EHL line contacts.

In Proceedings of 1996 Leeds-Lyon Symposium on Tribology (Eds Dowson

), 1996, Elsevier Tribology Series 32.

Goglia

P. R.

Cusano

Conry

T. F.

The effects of surface irregularities on the elastohydrodynamic lubrication of sliding line contacts. Part I—single irregularities, Part II—wavy surfaces

Trans. ASME, J. Tribology, 1984, 106, 104–119.

Greenwood

J. A.

Johnson

K. L.

The behaviour of transverse roughness in sliding elastohydrodynamically lubricated contacts

Wear, 1992, 153, 107–117.

Greenwood

J. A.

Morales-Espejel

G. E.

The behaviour of transverse roughness in EHL contacts

Proc. Instn Mech. Engrs, Part J, Journal of Engineering Tribology, 1994, 208 (J2), 121–132.

Chang

Zhao

Fundamental differences between Newtonian and non-Newtonian micro-EHL results

J. Tribology, 1996, 117, 29–35.

Greenwood

J. A.

Morales-Espejel

G. E.

The amplitude of the complementary function for wavy EHL contacts.

In Proceedings of 1996 Leeds-Lyon Symposium on Tribology (Eds Dowson

), 1996, Elsevier Tribology Series 32.

Hooke

C. J.

Surface roughness modification in elastohydro-dynamic contacts operating in the elastic piezoviscous regime

Proc. Instn Mech. Engrs, Part J, Journal of Engineering Tribology, 1998, 212 (J2), 145–162.

Hooke

C. J.

The behaviour of heavily loaded line contacts with transverse roughness

Proc. Instn Mech. Engrs, Part C, Journal of Mechanical Engineereing Science, 1999, 213 (C4), 309–320.

10.

Venner

C. H.

Couhier

Lubrecht

A. A.

Greenwood

J. A.

Amplitude reduction of waviness in transient EHL line contacts.

In Proceedings of 1996 Leeds-Lyon Symposium on Tribology (Eds Dowson

), 1996, Elsevier Tribology Series 32.

11.

Venner

C. H.

Lubrecht

A. A.

Amplitude reduction of non-isotropic harmonic patterns in circular EHL contacts under pure rolling.

In Proceedings of 1998 Leeds-Lyon Symposium on Tribology (Eds Dowson

), 1998, Elsevier Tribology Series 34.

12.

Hooke

C. J.

The behaviour of low amplitude surface roughness under line contacts

Proc. Instn Mech. Engrs, Part J, Journal of Engineering Tribology, 1999, 213 (J4), 275–286.

13.

Hooke

C. J.

Surface roughness modification in EHL line contacts—the effect of roughness, wavelength, orientation and operating conditions.

In Proceedings of 1998 Leeds-Lyon Symposium on Tribology (Eds Dowson

), 1998, Elsevier Tribology Series 34.

14.

Elcoate

C. D.

Evans

H. P.

Hughes

T. G.

Snidle

R. W.

Thin film, time dependent, micro EHL solutions with real surface roughness.

In Proceedings of 1998 Leeds-Lyon Symposium on Tribology (Eds Dowson

), 1998, Elsevier Tribology Series 34.

15.

Kaneta

Sakai

Nishikowa

Effects of surface roughness on point contact EHL

STLE, Tribology Trans., 1993, 36, 605–612.

16.

Johnson

K. L.

Contact Mechanics, 1985 (Cambridge University Press).

17.

Roelands

C. J. A.

Correlational aspects of the viscosity-temperature-pressure relationship of lubricating oils. PhD thesis, Technische Hogeschool Delft, 1966 (V. R. B. Druk, Groningen, The Netherlands).

18.

Dowson

Higginson

G. R.

Elastohydrodynamic Lubrication: The Fundamentals of Roller and Gear Lubrication, 1996 (Pergamon Press, Oxford).

19.

Johnson

K. L.

Tevaarwerk

J. L.

Shear behaviour of EHD oil films

Proc. R. Soc., Ser. A, 1977, 356, 215–236.

The behaviour of low-amplitude surface roughness under line contacts: Non-Newtonian fluids

Abstract

Abstract

Keywords

Get full access to this article

References