Effect of graphene content on the tribological and corrosion behavior of high-speed-laser-clad high-entropy-alloy composite coatings

To repair oil drill pipe joints that have failed owing to dry wear and tribocorrosion, graphene-reinforced CoCrFeMo0.5NiTi0.5 high-entropy alloy composite coatings (HEACCs) were developed through high-speed laser cladding. The HEACC containing 1.5 wt% graphene exhibited dry wear and tribocorrosion r...

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Vydané v:	Tribology international Ročník 201; s. 110197
Hlavní autori:	Yu, Jiangtong, Sun, Wenlei, Xie, Lei, Huang, Yong, Huang, Haibo
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Elsevier Ltd 01.01.2025
Predmet:	CoCrFeMo0.5NiTi0.5 high-entropy alloy composite coating Corrosion performance Graphene Tribocorrosion behavior CoCrFeMo0.5NiTi0.5 high-entropy alloy composite coating Tribocorrosion behavior Graphene Corrosion performance
ISSN:	0301-679X
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Abstract	To repair oil drill pipe joints that have failed owing to dry wear and tribocorrosion, graphene-reinforced CoCrFeMo0.5NiTi0.5 high-entropy alloy composite coatings (HEACCs) were developed through high-speed laser cladding. The HEACC containing 1.5 wt% graphene exhibited dry wear and tribocorrosion rates that were 59.18 % and 32.20 % of those observed in the high-entropy alloy coating, respectively. The HEACC exhibited a corrosion current density of 2.475 × 10−7 A/cm2. The HEACC containing 1.5 wt% graphene underwent progressive damage during dry wear owing to the combined effects of abrasive wear, which created furrows; adhesive wear, which led to flaking; and oxidative wear, which formed oxide layers. During tribocorrosion, chloride ions exacerbated surface damage caused by hard abrasives and asperities, intensifying corrosive–abrasive wear interactions. ●Composite coatings of graphene-reinforced high-entropy alloys were prepared via high-speed laser cladding.●The tribocorrosion rate of the HEACC can reach 2.720 µm3·N−1·mm−1, which is only 32.20 % of that of the HEA.●The influence of the graphene content on the tribocorrosion performance of HEACCs was investigated.●The corrosion current density of the HEACC reached about an order of magnitude smaller than that of the HEA.●The formation of reinforcing phases and the self-lubricating effect of graphene collectively enhanced the tribocorrosion resistance of the composite coating.
AbstractList	To repair oil drill pipe joints that have failed owing to dry wear and tribocorrosion, graphene-reinforced CoCrFeMo0.5NiTi0.5 high-entropy alloy composite coatings (HEACCs) were developed through high-speed laser cladding. The HEACC containing 1.5 wt% graphene exhibited dry wear and tribocorrosion rates that were 59.18 % and 32.20 % of those observed in the high-entropy alloy coating, respectively. The HEACC exhibited a corrosion current density of 2.475 × 10−7 A/cm2. The HEACC containing 1.5 wt% graphene underwent progressive damage during dry wear owing to the combined effects of abrasive wear, which created furrows; adhesive wear, which led to flaking; and oxidative wear, which formed oxide layers. During tribocorrosion, chloride ions exacerbated surface damage caused by hard abrasives and asperities, intensifying corrosive–abrasive wear interactions. ●Composite coatings of graphene-reinforced high-entropy alloys were prepared via high-speed laser cladding.●The tribocorrosion rate of the HEACC can reach 2.720 µm3·N−1·mm−1, which is only 32.20 % of that of the HEA.●The influence of the graphene content on the tribocorrosion performance of HEACCs was investigated.●The corrosion current density of the HEACC reached about an order of magnitude smaller than that of the HEA.●The formation of reinforcing phases and the self-lubricating effect of graphene collectively enhanced the tribocorrosion resistance of the composite coating.
ArticleNumber	110197
Author	Sun, Wenlei Xie, Lei Huang, Yong Yu, Jiangtong Huang, Haibo
Author_xml	– sequence: 1 givenname: Jiangtong surname: Yu fullname: Yu, Jiangtong email: yujtong@163.com organization: School of Mechanical Engineering, Xinjiang University, Urumqi 830017, China – sequence: 2 givenname: Wenlei surname: Sun fullname: Sun, Wenlei email: xjusunwenlei@163.com organization: School of Mechanical Engineering, Xinjiang University, Urumqi 830017, China – sequence: 3 givenname: Lei surname: Xie fullname: Xie, Lei organization: School of Physics Science and Technology, Xinjiang University, Urumqi 830017, China – sequence: 4 givenname: Yong surname: Huang fullname: Huang, Yong organization: Electromechanical Engineering College, Xinjiang Institute of Engineering, Urumqi 830023, China – sequence: 5 givenname: Haibo surname: Huang fullname: Huang, Haibo organization: Electromechanical Engineering College, Xinjiang Institute of Engineering, Urumqi 830023, China
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CitedBy_id	crossref_primary_10_1016_j_surfcoat_2025_132292 crossref_primary_10_1016_j_surfcoat_2025_132707 crossref_primary_10_1016_j_optlastec_2025_112598 crossref_primary_10_1016_j_mtcomm_2025_112107 crossref_primary_10_1016_j_ceramint_2025_08_271
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Nanomaterials doi: 10.3390/nano12122113
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Snippet	To repair oil drill pipe joints that have failed owing to dry wear and tribocorrosion, graphene-reinforced CoCrFeMo0.5NiTi0.5 high-entropy alloy composite...
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Title	Effect of graphene content on the tribological and corrosion behavior of high-speed-laser-clad high-entropy-alloy composite coatings
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