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Development of hybrid electrodeposition/slurry diffusion aluminide coatings on Ni-based superalloy with enhanced hot corrosion resistance

Ali Zakeri, Mohammad Reza Masoumi Balashadehi, A. Sabour Rouhaghdam

2021Journal of Composites and Compounds15 citationsDOIOpen Access PDF

Abstract

Ni/Co-modified aluminide coatings were prepared on Hastelloy-X superalloy by a combined process of electrodeposition and slurry aluminizing. In this regard, pure layers of Ni and Ni-50wt.%Co were initially applied via electrodeposition process and successive aluminization was carried out by a slurry technique. The microstructural and chemical composition characterization of the specimens revealed that a compact and dense aluminide coating was formed with two-layered structure containing the outer Al-rich b phase and inner interdiffusion zone. Moreover, the presence of pre-electrodeposited layers inhibited the outward diffusion flux of elements from the substrate and effectively suppressed the formation of Kirkendall pores. The hot corrosion studies of the obtained coatings indicated that the addition of a pre-electrodeposited layer could enhance the high-temperature corrosion performance of the coatings when exposed to sulfate salt.

Topics & Concepts

AluminideMaterials scienceMetallurgySlurrySuperalloyCorrosionKirkendall effectCoatingDiffusionLayer (electronics)MicrostructureNickelIntermetallicComposite materialAlloyPhysicsThermodynamicsHigh-Temperature Coating BehaviorsIntermetallics and Advanced Alloy PropertiesHigh Entropy Alloys Studies
Development of hybrid electrodeposition/slurry diffusion aluminide coatings on Ni-based superalloy with enhanced hot corrosion resistance | Litcius