Diverse mechanisms of friction induced self-organisation into a low-friction material – An overview of WS2 tribofilm formation

A clever way to accomplish low friction in sliding contacts is to use materials that combine high hardness with low shear strength. Such seemingly paradoxical combination of high resistance and low resistance to plastic deformation can only be realized by combining a hard substrate material with a t...

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Bibliographic Details
Published in:Tribology international 2016-09, Vol.101, p.340-347
Main Authors: Gustavsson, F., Jacobson, S.
Format: Article
Language:English
Subjects:
Low-friction coatings
Tribofilm
Tribofilm formation
Tungsten disulfide
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Summary:A clever way to accomplish low friction in sliding contacts is to use materials that combine high hardness with low shear strength. Such seemingly paradoxical combination of high resistance and low resistance to plastic deformation can only be realized by combining a hard substrate material with a thin easy-shear coating. Some prominent such coating candidates are sulfides and selenides of mainly molybdenum and tungsten. This paper focuses on tungsten disulfide, WS2, and explores the many routes to formation and regeneration of such low-friction tribofilms. The initial surfaces involve various types of coatings, materials and fluids, including W and S in different states, but none of which include crystalline WS2. All formation routes result in remarkably similar, pure crystalline WS2 tribofilms. •This paper focuses on tungsten disulfide, WS2, and explores the many routes to formation and regeneration of such low-friction tribofilms.•The initial surfaces involve various types of coatings, materials and fluids, including W and S in different states, but none of which include crystalline WS2.•All formation routes result in remarkably similar, pure crystalline WS2 tribofilms.•These tribofilms constitute beautiful and extremely efficient examples of the classical low-friction combination: low shear strength and small area of real contact.
ISSN:0301-679X
1879-2464
1879-2464
DOI:10.1016/j.triboint.2016.04.029