Microstructure, chemical and tribological investigations of Mo x W1−x S y co-sputtered composite films

MoxW1−xSy composite films were co-sputtered by the combination of MoS2 and WS2 targets, which were shown to have much superior tribological performance with lower and more stable friction coefficient, longer durability and higher bearing resistance than pure MoS2 films in room temperature air with a...

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Published in	Tribology letters Vol. 22; no. 1; pp. 37 - 43
Main Authors	Yin, G. L., Huang, P. H., Yu, Z., He, D. N., Tu, J. P.
Format	Journal Article
Language	English
Published	Dordrecht Springer Nature B.V 01.04.2006
Subjects	Coefficient of friction Durability Electron microscopy Friction reduction Friction resistance Ions Lubrication Microscopy Microstructure Molybdenum disulfide Organic chemistry Oxidation resistance Photoelectrons Relative humidity Tribology Tungsten disulfide
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Abstract	MoxW1−xSy composite films were co-sputtered by the combination of MoS2 and WS2 targets, which were shown to have much superior tribological performance with lower and more stable friction coefficient, longer durability and higher bearing resistance than pure MoS2 films in room temperature air with a relative humidity of 45–50%. Especially for the Mo0.6W0.4S1.6 (40 at.% WS2) composite film, an increase in durability of more than a one order of magnitude was reached. X-ray diffraction (XRD), scanning electron microscopy, transmission electron microscopy, and X-ray photoelectron spectroscopy were used to investigate the relationship between the microstructure and the tribological performance of the films. The composite films are shown to have a densified structure and accordingly improved oxidation resistance and lubrication properties. Moreover, the composite films have a lattice expansion in the c direction, along with a reduced the friction within the films.
AbstractList	MoxW1−xSy composite films were co-sputtered by the combination of MoS2 and WS2 targets, which were shown to have much superior tribological performance with lower and more stable friction coefficient, longer durability and higher bearing resistance than pure MoS2 films in room temperature air with a relative humidity of 45–50%. Especially for the Mo0.6W0.4S1.6 (40 at.% WS2) composite film, an increase in durability of more than a one order of magnitude was reached. X-ray diffraction (XRD), scanning electron microscopy, transmission electron microscopy, and X-ray photoelectron spectroscopy were used to investigate the relationship between the microstructure and the tribological performance of the films. The composite films are shown to have a densified structure and accordingly improved oxidation resistance and lubrication properties. Moreover, the composite films have a lattice expansion in the c direction, along with a reduced the friction within the films.
Author	Yu, Z. He, D. N. Huang, P. H. Tu, J. P. Yin, G. L.
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SubjectTerms	Coefficient of friction Durability Electron microscopy Friction reduction Friction resistance Ions Lubrication Microscopy Microstructure Molybdenum disulfide Organic chemistry Oxidation resistance Photoelectrons Relative humidity Tribology Tungsten disulfide
Title	Microstructure, chemical and tribological investigations of Mo x W1−x S y co-sputtered composite films
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