The effect of Si content on the structure and tribological performance of MoS2/Si coatings

The effect of Si content on the structure and tribological performance of MoS2/Si coatings

In the present work, the synthesis of MoS2/Si coatings was conducted to study the effect of Si on the microstructure of the MoS2/Si coatings and their tribological behavior. With the adoption of advanced characterization methods, the results reveal that the introduction of Si plays significant roles...

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Bibliographic Details
Published in:Surface & coatings technology Vol. 403; p. 126362
Main Authors: Xu, Yizhuo, Xie, Mingling, Li, Yuting, Zhang, Guangan, Xu, Xiaojun, Fan, Xiaoqiang, Sun, Qi, Li, Hao, Zhu, Minhao
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 15-12-2020
Elsevier BV
Subjects:
Abrasive wear
Coatings
Composite structures
Gettering
Molybdenum disulfide
Morphology
MoS2/Si coatings
Multilayers
Nanostructure
Oxygen gettering effect
Silicon
Three-body abrasive wear
Transfer film
Tribology
Three-body abrasive wear
MoS2/Si coatings
Oxygen gettering effect
Transfer film
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Summary:In the present work, the synthesis of MoS2/Si coatings was conducted to study the effect of Si on the microstructure of the MoS2/Si coatings and their tribological behavior. With the adoption of advanced characterization methods, the results reveal that the introduction of Si plays significant roles in determining the morphologies and structures of the MoS2/Si coatings. The results demonstrate that the increase of Si content can cause the changes of the coatings from a typical porous with columnar morphology to a non-porous with featureless morphology, while as the Si content continues to increase up to a much higher content (i.e., 17.3 at.%) the coatings with composite structure change to the a multilayer nanostructure. The tribological tests results point out that the MoS2/Si coatings with a composite structure perform better tribological properties as the content of Si rises from 0 to 14.7 at.%, owing to the combination of the increase in hardness and the oxygen gettering effect of Si. However, the MoS2/Si coatings with a multilayer nanostructure formed under a much high Si content (17.3 at.% Si) display poor tribological properties as the excessive Si inhibits the formation of the transfer film upon severe three-body abrasive wear. •The MoS2/Si composite coatings show featureless morphology.•A multilayer structure is formed when the Si content is higher than 17.4 at.%.•The doped Si will increase the humidity resistance of the MoS2 coating.•The tribological behavior of MoS2/Si coatings is codetermined by humidity resistance and three-body abrasive wear.
ISSN:0257-8972
1879-3347
DOI:10.1016/j.surfcoat.2020.126362