Extraordinary macroscale lubricity of sonication-assisted fabrication of MoS2 nano-ball and investigation of in situ formation mechanism of graphene induced by tribochemical reactions

[Display omitted] •MoS2 nano-balls are first fabricated using sonication-assisted method.•MoS2 nano-balls makes the tribosystem exhibit excellent tribological properties.•Graphene layers are induced by tribochemical reactions during sliding. We first fabricate MoS2 nano-ball in isopropanol using son...

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Bibliographic Details
Published in:Applied surface science 2020-04, Vol.510, p.145456, Article 145456
Main Authors: Zhang, Renhui, Yang, Xue, Pu, Jibin, He, Zhongyi, Xiong, Liping
Format: Article
Language:English
Subjects:
Graphene
Mechanism
MoS2
Nano-ball
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Summary:[Display omitted] •MoS2 nano-balls are first fabricated using sonication-assisted method.•MoS2 nano-balls makes the tribosystem exhibit excellent tribological properties.•Graphene layers are induced by tribochemical reactions during sliding. We first fabricate MoS2 nano-ball in isopropanol using sonication-assisted method. We systematically probe the lubrication mechanism of MoS2 nano-ball in isopropanol. Hydroxylated MoS2 nano-ball could effectively reduce the contact area for GCr15 steel balls and possess superior load-capacity and make the tribosystem achieve ultra-low friction and wear under 98 or 196 N and 600 rpm. For comparison, the lubricity of tribosystem sliding in isopropanol is conducted. Interestingly, graphene layers are formed sliding under 196 N and 600 rpm, the graphene-based transfer film on GCr15 steel ball makes the lubrication condition fast transfer from mixed lubrication condition to full film lubrication condition, which results in high friction and wear. The formation mechanism of graphene is discussed and proposed in details.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2020.145456