Long-term tribocorrosion resistance and failure tolerable of multilayer carbon-based coatings

Authors
Li, HaoLiu, LinlinGuo, PengSun, LiliWei, JingLiu, YingruiLi, ShuyuWang, ShuyuanLee, Kwang-RyeolKe, PeilingWang, Aiying
Issue Date
2022-10
Publisher
SPRINGER
Citation
FRICTION, v.10, no.10, pp.1707 - 1721
Abstract
Current tribocorrosion research of metallic materials and their surface protective coatings mainly focuses on their short-term properties, with test time of 0.5-2.0 h and a sliding distance 50-500 m, which may significantly deviate from the practical long-term service condition and thus cause a catastrophe of marine equipments. In this study, three carbon-based multilayer coatings (Ti/DLC, TiCx/DLC, and Ti-TiCx/DLC) were deposited on S32750 substrates, and both short-term and long-term tribocorrosion behaviors were investigated. The experimental results indicate that the coatings substantially improve the tribocorrosion resistance of the S32750 stainless steel. During the short-term tribocorrosion test, TiCx/DLC exhibited the best tribocorrosion resistance owing to its high hardness. During the long-term tribocorrosion test, however, Ti-TiCx/DLC coating indicated the best anti-tribocorrosion performance owing to its excellent fracture toughness together with high hardness. Moreover, under 5 N, Ti-TiCx/DLC can withstand a long-term test of more than 24 h. Additionally, under a higher load of 20 N, the Ti-TiCx/DLC with a corresponding sliding distance of approximately 1,728 m maintained a low friction coefficient of approximately 0.06. However, the coating was completely worn out; this is attributable to the formation of tribocorrosion products consisting of graphitized carbon and nanocrystalline FexOy.
Keywords
STAINLESS-STEEL; MECHANICAL-PROPERTIES; FRACTURE-TOUGHNESS; DLC COATINGS; CORROSION; BEHAVIOR; FILMS; WEAR; PERFORMANCE; PLASMA; DLC; multilayer structure; long-term tribocorrosion; failure tolerance
ISSN
2223-7690
URI
https://pubs.kist.re.kr/handle/201004/114543
DOI
10.1007/s40544-021-0559-4
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KIST Article > 2022
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