Shrikant V. Joshi scite author profile

This study deals with the aluminizing of a directionally cast Ni-base superalloy, namely CM-247, by a single-step process using a high-activity pack. It is observed that significant incorporation of Al into the substrate surface during aluminizing continues over a period of about 1 hour and is not restricted merely to the first few minutes, as reported in the literature. Based on the microstructural details of the coatings formed at various stages of aluminizing, it is concluded that the coating growth in the above process takes place primarily by inward Al diffusion initially, followed by an intermediate stage when the growth involves both inward Al and outward Ni diffusion. In the final stages, the outward diffusion of Ni dominates the coating formation process. The above mechanism of coating formation is different from the one that prevails in the conventional two-step high-activity coating process in that the reaction front for the formation of NiAl remains spatially stationary despite the outward diffusion of nickel during the intermediate stage. It is also shown in the present study that the content of the Al source in the pack affects the coating structure significantly. It is further demonstrated that the microstructure of the aluminide coatings depends not only on the amount of Al incorporated in the sample during aluminizing but also on the time over which the uptake of this Al takes place.

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Geometrical features and metallurgical characteristics of Nd:YAG laser drilled holes in thick IN718 and Ti–6Al–4V sheets

Bandyopadhyay

Sundar

Sundararajan

et al. 2002

Journal of Materials Processing Technology

168

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Experimental visualization of microstructure evolution during suspension plasma spraying of thermal barrier coatings

Ganvir

Calinas²,

Markocsan

et al. 2019

Journal of the European Ceramic Society

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Influence of process parameters during pulsed Nd:YAG laser cutting of nickel-base superalloys

Thawari

Sundar

Sundararajan

et al. 2005

Journal of Materials Processing Technology

145

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Effect of particle size in aggregated and agglomerated ceramic powders

et al. 2010

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Shrikant V. Joshi

Evolution of aluminide coating microstructure on nickel-base cast superalloy CM-247 in a single-step high-activity aluminizing process

Geometrical features and metallurgical characteristics of Nd:YAG laser drilled holes in thick IN718 and Ti–6Al–4V sheets

Experimental visualization of microstructure evolution during suspension plasma spraying of thermal barrier coatings

Influence of process parameters during pulsed Nd:YAG laser cutting of nickel-base superalloys

Effect of particle size in aggregated and agglomerated ceramic powders

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