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Adhesion, Friction, and Wear

Published online by Cambridge University Press:  29 November 2013

D. Landheer  and
A.W.J. de Gee
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Extract

In the context of this article, adhesion, friction, and wear are defined as follows: Adhesion is the resistance against separation of two bodies in a direction normal to the common interface. Friction is the resistance against motion of the contacting bodies in the direction of the common interface. Wear is the gradual change of geometry and loss of material due to the different contact processes that may occur in moving contacts.

Bowden and Tabor have shown convincingly that adhesion, friction and wear are interrelated at least to some extent. This article will review some of the current arguments that support this notion.

If surfaces are not separated by a viscous film, both friction and wear have their origin in the contact phenomena occurring at the roughness asperities of the sliding bodies.

Within one contact cycle, three primary events can be distinguished:

1. In order to obtain a (normal) load-carrying capacity, the contacting asperities must be compressed or indented (Figure 1), similar to a Brinell hardness test.

2. At the beginning of the contact cycle, the asperities interfere in the direction of sliding (Figure 2). Thus during the first half of the contact cycle, frontal loading of the asperities occurs (Figure 2b).

Particularly if the resulting deformation is plastic (as it will usually be for metals, see Reference 1), the net effect of this contributes to friction, the so-called “ploughing” effect.

Type
Materials Tribology
Information
MRS Bulletin , Volume 16 , Issue 10 , October 1991 , pp. 36 - 40
Copyright
Copyright © Materials Research Society 1991

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References

1.Bowden, F.P. and Tabor, D., The Friction and Lubrication of Solids, Vol. I (Clarendon Press, Oxford, 1954). A comprehensive review and an update of the main issues has been published by D. Tabor in Proc. International Conference on Tribology, Fifty Years On, Vol. I, I. Mech. E., (London, 1987) p. 157-173.Google Scholar
2.Landheer, D. and Zaat, J.H., Wear 27 (1974) p. 129145.CrossRefGoogle Scholar
3.Bowden, F.P. and Tabor, D., The Friction and Lubrication of Solids, Vol. II (Clarendon Press, Oxford, 1957).Google Scholar
4.Rabinowicz, E., Friction and Wear of Materials (Wiley-Interscience, New York, 1965).Google Scholar
5.Ludema, K.C., Lubrication Engineering, (June, 1988) p. 500509.Google Scholar
6.Israelachvili, J.N. and Tabor, D., Wear 24 (1973) p.386390.CrossRefGoogle Scholar
7.Suh, Nam P., Wear 25 (1973) p. 111124.CrossRefGoogle Scholar