The oxidation behavior of a Fe-16Cr alloy containing a small amount of Mn oxidized in air for up to 500 h within the temperature range of 650-850 degrees C was examined. Two consecutive oxidation stages were found and these obeyed the parabolic rate law with various rate constants. Formation and growth of Cr2O3, MnCr2O4, surface nodules and oxide spallation were found to be responsible in the oxidation stages accordingly to various situations. The thin film X-ray diffraction, SEM and EDX confirmed the duplex oxide microstructure with MnCr2O4 on top of Cr2O3, Cr and Mn diffusion in Cr2O3 is considered to be responsible for the formation of each layer, respectively. The estimated area specific resistance (ASR) suggests the possibility of using this alloy as the interconnect material in reduced temperature SOFCs, however, surface modification to enhance its oxidation and spallation resistances is desired. (c) 2005 Elsevier B.V. All rights reserved.