Microstructures, mechanical properties and tribological behaviors of amorphous carbon coatings in-situ grown on polycarbonate surfaces

[Display omitted] •Hard amorphous carbon (a-C) was in-situ grown on soft polycarbonate (PC).•Mechanical and tribological properties of PC were improved by in-situ grown a-C.•The in-situ transition layer endowed the strong adhesion of a-C on PC substrates.•Scaly protection with cracking but no peelin...

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Bibliographic Details
Published in:Applied surface science 2021-10, Vol.563, p.150309, Article 150309
Main Authors: Wang, Yongxin, Guan, Wen, Fischer, Christian B., Wehner, Stefan, Dang, Rui, Li, Jinlong, Wang, Chunting, Guo, Wuming
Format: Article
Language:English
Subjects:
Doped amorphous carbon coatings
In-situ growth mechanism
Polycarbonate substrate
Pure amorphous carbon coating
Scaly protection
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Summary:[Display omitted] •Hard amorphous carbon (a-C) was in-situ grown on soft polycarbonate (PC).•Mechanical and tribological properties of PC were improved by in-situ grown a-C.•The in-situ transition layer endowed the strong adhesion of a-C on PC substrates.•Scaly protection with cracking but no peeling of the in-situ grown a-C was revealed. Pure amorphous carbon (a-C) coating, chromium doped amorphous carbon (a-C/Cr) coating and silicon doped amorphous carbon (a-C/Si) coating were synthesized on Polycarbonate (PC) plastic substrates by continuous treatment of different plasma combinations. Microstructures, mechanical properties and tribological behaviors of the as-presented coatings were systematically investigated. As a result, the in-situ growth mechanisms were demonstrated for all of these carbonaceous coatings. This in-situ growth meant an in-situ transformation from the polymer structure into inorganic structure from the surface or subsurface of the substrate followed by an epitaxial growth on the transformed inorganic layer. Cr and Si dopant generated a bulky microstructure, leading to a higher density of in-situ grown a-C/Cr and a-C/Si coatings than the a-C coating on PC substrates. The hardness and elastic modulus of PC substrate were significantly improved by these in-situ grown carbonaceous coatings. Pure a-C coating showed the best protective effect on PC substrate under sliding-friction condition, with scaly protection mechanism, among these different coatings. The fundamental for good protective effect of pure a-C coating on PC was the in-situ growth mechanism, which endowed reliable adhesion of hard a-C coating on soft PC substrate even if there were cracks under sliding condition.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2021.150309