Journal
SURFACE & COATINGS TECHNOLOGY
Volume 454, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.surfcoat.2022.129154
Keywords
High entropy alloys; Compositionally complex alloys; HVAF; HVOF; Oxidation; Eletrochemical corrosion
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Thermally sprayed Cr40Co40Ni20 coatings were produced by HVOF and HVAF, forming chromia and spinel compounds upon oxidation at high temperatures. Chromia formed at the inner layer and spinel at the outer layer. HVAF coatings showed less oxidation compared to HVOF coatings. However, the formation of spinel and oxide in the coatings led to regions susceptible to corrosion in chloride-rich electrolyte.
Thermally sprayed Cr40Co40Ni20 coatings were produced by high-velocity oxygen fuel (HVOF) and high-velocity air fuel (HVAF). The phases formed upon coatings' build-up were sensitive to oxidation at high temperatures, leading to the formation of various oxygen-rich compounds such as chromia and spinel. Chromia tended to be formed at the inner layer, in contact with the metal, and the spinel forming the outer layer. HVAF coatings suffered much less oxidation compared to the HVOF coatings. The pronounced Cr-depletion at the metallic and oxygen compounds caused by formation of spinel and oxide upon deposition of coatings created regions sus-ceptible to readily corrode in chloride-rich electrolyte.
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