The Fe-Cr-Al alloy system shows an excellent heat resistance because of the formation of an Al2O3 film on the metal surface in an oxidizing atmosphere at high temperatures up to 1400oC. The Fecralloy needs an additive that can act as a binder because of its bad compactability. In this study, the green compacts of STS434L and Al powder added to Fecralloy are oxidized at 950oC for up to 210 h. Fecralloy and Al is mixed by two types of ball milling. One is vented to air and the other was performed in a sealed jar. In the case of Al addition, there are no significant changes in the electrical resistance. Before the oxidation test, Al oxides are present in the Fecralloy surface, as determined from the energy dispersive spectroscopy results. The addition of Al improves the compactability because of an increased density, and the addition of STS434L increases the electrical resistivity by forming a composite oxide.

• 박진우(경상대학교 나노 신소재 공학부) | Jin-Woo Park
• 고병현(경상대학교 나노 신소재 공학부) | Byung-Hyun Ko
• 정우영(경상대학교 나노 신소재 공학부) | Woo-Young Jung
• 박동규(경상대학교 링크 사업단) | Dong-Kyu Park
• 안인섭(경상대학교 나노 신소재 공학부 항공기부품 기술연구소) | In-Shup Ahn Corresponding Author