resumo
Plasma electrolytic oxidation (PEO) processing for light metals is known for decades and has been established as a well-known industrial surface treatment offering a reasonable wear and corrosion protection. However, long-term protection is compromised by the intrinsic porosity and limited range of composition in the PEO layer. A novel approach is to introduce particles to the electrolyte, aiming at their in-situ incorporation into PEO coatings during growth. The idea is that with the help of particles the defects can be sealed, and the composition range and the functionalities of produced coatings can be enhanced. So far, multifunctional coatings with anticorrosion, self lubrication, anti-wear, bioactive and photocatalytic properties were produced with the aid of particle addition. The properties of particle itself, together with electrical and electrolyte parameters during PEO processing determine the way and efficiency of particle uptake and incorporation into the coatings. Normally incorporation of the particles into the coating can range from fully inert to fully reactive. This paper reviews recent progress on particle-containing PEO coatings formed on Mg, Al and Ti alloy substrates. The main focus is given to the uptake mechanism of particle into PEO layers and the introduced microstructural and functional changes. (C) 2016 Elsevier B.V. All rights reserved.
palavras-chave
MICRO-ARC OXIDATION; AZ91D MAGNESIUM ALLOY; SOL-GEL COATINGS; CORROSION-RESISTANCE; ELECTROPHORETIC DEPOSITION; OXIDE COATINGS; SILICA SOL; CERAMIC COATINGS; ALUMINUM-ALLOY; MG ALLOY
categoria
Materials Science; Physics
autores
Lu, XP; Mohedano, M; Blawert, C; Matykina, E; Arrabal, R; Kainer, KU; Zheludkevich, ML
nossos autores
Grupos