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AuthorAbdeen, Dana H.
AuthorEl Hachach, Mohamad
AuthorKoc, Muammer
AuthorAtieh, Muataz A.
Available date2020-05-15T00:15:04Z
Publication Date2019
Publication NameMaterials
ResourceScopus
ISSN19961944
URIhttp://dx.doi.org/10.3390/ma12020210
URIhttp://hdl.handle.net/10576/14925
AbstractGrowth in nanocoatings technology is moving towards implementing nanocoatings in many sectors of the industry due to their excellent abilities. Nanocoatings offer numerous advantages, including surface hardness, adhesive strength, long-term and/or high-temperature corrosion resistance, the enhancement of tribological properties, etc. In addition, nanocoatings can be applied in thinner and smoother thickness, which allows flexibility in equipment design, improved efficiency, lower fuel economy, lower carbon footprints, and lower maintenance and operating costs. Nanocoatings are utilised efficiently to reduce the effect of a corrosive environment. A nanocoating is a coating that either has constituents in the nanoscale, or is composed of layers that are less than 100 nm. The fine sizes of nanomaterials and the high density of their ground boundaries enable good adhesion and an excellent physical coverage of the coated surface. Yet, such fine properties might form active sites for corrosion attack. This paper reviews the corrosion behaviour of metallic, ceramic, and nanocomposite coatings on the surface of metallic substrates. It summarises the factors affecting the corrosion of these substrates, as well as the conditions where such coatings provided required protection. 2018 by the authors.
SponsorAcknowledgments: This work was supported by Hamad Bin Khalifa University, College of Science and Engineering, Sustainable Development Division, Doha, Qatar. The publication of this article was funded by the Qatar National Library.
Languageen
PublisherMDPI AG
SubjectCeramic nanocoating
Corrosion
Corrosion factors
Metallic nanocoating
Nanocoating
Nanocomposite coating
TitleA review on the corrosion behaviour of nanocoatings on metallic substrates
TypeArticle
Issue Number2
Volume Number12
dc.accessType Open Access


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