Flame spraying of Al/Fe3Al-Fe3AlCx composites powders obtained by vertical ball milling

Aluminum composite coatings deposited by flame spray with nanometric materials as reinforcement have been used to produce high-performance coatings. The addition of carbon to Fe3Al, forming carbides Fe3AlCx (phase κ), enhances the properties of Fe3Al and contributes toward the increase in the microh...

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Bibliographic Details
Published in:Surface & coatings technology 2022-04, Vol.436, p.128276, Article 128276
Main Authors: Verona, S.P., da Silva, L.R.R., Setti, D., Verona, M.N., Paredes, R.C., Falcão, Railson Bolsoni, Luz, Maciel Santos
Format: Article
Language:English
Subjects:
Al (micro)/Fe3Al-κ (nano) composite powders
Aluminum coatings
Aluminum composite coatings
Aluminum composites
Ball milling
Cladded powder
Coating effects
Flame spray
Flame spraying
Iron aluminides
Microhardness
Microparticles
Nanoparticles
Particulate composites
Reinforcement
Thickness
Vertical ball-mill
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Summary:Aluminum composite coatings deposited by flame spray with nanometric materials as reinforcement have been used to produce high-performance coatings. The addition of carbon to Fe3Al, forming carbides Fe3AlCx (phase κ), enhances the properties of Fe3Al and contributes toward the increase in the microhardness of the coating, thus justifying the use of intermetallic as reinforcement to the Al coating. This study aims to obtain mechanically cladded Al (micro)/Fe3Al-k (nano) powder by a vertical ball mill (VBM) with two different compositions of reinforcement (20% and 40%) for producing powder flame spray coatings. The effect of the VBM powder processing route on phase formation, powder morphology, and coating microhardness was evaluated. The characteristics of the powders were investigated through their being subjected to milling times of 5, 10, 15, 20, and 30 min in VBM. The processing time of 15 min was the most suitable for obtaining Al composites with 20% and 40% Fe3Al-κ with no significant changes in particle size, no solid-state reactions, and Al particles cladded with Fe3Al–κ. Deposits of Al/Fe3Al-κ composite by flame spray were reached without separating the Fe3Al-κ nanoparticle from the Al microparticle during flight while forming composite coatings with aluminides particles dispersed throughout the coating. The coating formed presented up to 600 μm of thickness and microhardness of 197 ± 47Hv for 20% and 158 ± 49Hv for 40%. •Vertical ball mill (VBM) was used produce Al(micro)/Fe3Al-κ(nano) composite powders.•Lower processing time to achieve the composite powder for a flame-sprayed coating•No solid-state and phase transformation was detected in the produced composite powders.•Layer deposition up to 600 μm of thickness•Higher coating hardness than Al coating
ISSN:0257-8972
1879-3347
DOI:10.1016/j.surfcoat.2022.128276