화학공학소재연구정보센터
International Journal of Hydrogen Energy, Vol.36, No.9, 5611-5616, 2011
High-temperature oxidation process analysis of MnCo2O4 coating on Fe-21Cr alloy
Even though the operation temperature of solid oxide fuel cells (SOFCs) stacks has been reduced (similar to 750 degrees C), stainless steel interconnect within the stacks still requires protection by high conductive coatings to delay the growth of oxide scales and reduce chromium evaporation. Manganese cobaltite spinel protective coating with a nominal composition of MnCo2O4 was produced on Fe-21Cr stainless steel. Electrical, microstructural and compositional analysis were performed to investigate the interfacial reaction of MnCo2O4 protective coating with the stainless steel substrate during 750 degrees C oxidation process. The spinel coating not only acts as a barrier to Cr outward transport, but also improves the electrical conductivity of the alloy interconnect during long-term oxidation. The coated alloy demonstrates good electrical conductivity with an area specific resistance (ASR) of about 5 mOhm cm(2) after oxidation for 1000 h at 750 degrees C, which is about 1/4 of the ASR of bare Fe-21Cr alloy. The reduction of ASR might be caused by the fact that Cr migrated from the steel substrate interact with MnCO2O4 coating and generated Mn-Co-Cr spinet phase, which has higher electrical conductivity than that of Cr2O3. Copyright (C) 2011, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.