Abstract
Abstract The corrosion of NiAl alloys containing zirconium in molten carbonate salt at 650 °C was studied as a potential coating material on a stainless steel separator. A mixed layer of NiO, ZrO2, and Al2O3 was formed on the surface of the NiAl alloy during preoxidation at 1000 °C in air. The Ni2AlZr phase, precipitated along the grain boundaries of NiAl alloys containing zirconium, was the source of the formation of the outermost layer of Al2O3 only on the mixed oxide layer during the oxidation. The Al2O3 layer inhibited the dissolution of NiO on the NiAl-Zr alloy in molten carbonate salt. Therefore, the oxide layer formed on the NiAl-Zr alloy was more corrosion-resistant than the oxide layer on the NiAl alloy. As the amount of zirconium in NiAl-Zr alloy was increased, the corrosion rate greatly decreased due to an increasing amount of Al2O3 at the outermost surface layer oxide. The mixed oxide layer on the NiAl alloy was spalled off the alloy by air cooling after high temperature isothermal oxidation, ...
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