Jae Ho Jun scite author profile

The addition of active elements in high temperature materials may improve corrosion resistance extensively. In general, the active elements are incorporated in the form of an alloying element either in the bulk or in overlay coatings, as an oxide dispersion, or by ion implantation. In this experiment, yttrium was incorporated by an ion plating method either before or after pack aluminizing to maximise the corrosion resistance of IN 713C. Various combinations of pack aluminizing and yttrium ion plating were examined with respect to coating sequence, aluminium activity, and corrosion environment. From all the various coating combinations examined, the best corrosion resistance was obtained from the H/A + Y (high activity aluminizing + Y-ion plating) type multilayer coatings. Uniformity of the Y deposition was greatly dependent upon the surface condition of the aluminide coating layer. The high activity aluminide coating gave better uniformity of Y deposition than did the low activity aluminide coating. Improvement of corrosion resistance by the Y-modified aluminide multilayer coatings of H/A + Y type may occur because Y present between the A2O3 columns improves the 4 2 0 3 scale adherence and substantially prohibits depletion ofAl in the aluminide coating layer.

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Jae Ho Jun

Effect of reactive elements on oxidation behaviour of Fe–22Cr–0.5Mn ferritic stainless steel for a solid oxide fuel cell interconnect

Fixed-bed adsorption for bulk component system. Non-equilibrium, non-isothermal and non-adiabatic model

Molybdenum effect on oxidation resistance and electric conduction of ferritic stainless steel for SOFC interconnect

Oxide modification by chi phase formed on oxide/metal interface of Fe-22Cr-0.5Mn ferritic stainless steel for SOFC interconnect

High temperature corrosion study on yttrium modified aluminide coatings on IN 713C

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