摘要
Intermetallic materials have long been considered as potential candidates for high temperature applications due to their high strength/weight ratio, oxidation resistance, and corrosion resistance. The recent alloy design approaches undertaken by many researchers around the world allowed design of intermetallics for high strength application. Environmental embrittlement, solidification porosity, and low ductility of FeAl alloys necessitated innovative ways of processing FeAl sheets based on powder metallurgical route as opposed to an ingot route. Excellent sheets of FeAl have been processed by roll compaction followed by sintering technique using water atomized FeAl powder. Gas atomized FeAl powder was used to obtain sheets of FeAl by tape casting technique. Plasma spray technique was employed to obtain coating of FeAl alloy.
Intermetallic materials have long been considered as potential candidates for high temperature applications due to their high strength/weight ratio, oxidation resistance, and corrosion resistance. The recent alloy design approaches undertaken by many researchers around the world allowed design of intermetallics for high strength application. Environmental embrittlement, solidification porosity, and low ductility of FeAl alloys necessitated innovative ways of processing FeAl sheets based on powder metallurgical route as opposed to an ingot route. Excellent sheets of FeAl have been processed by roll compaction followed by sintering technique using water atomized FeAl powder. Gas atomized FeAl powder was used to obtain sheets of FeAl by tape casting technique. Plasma spray technique was employed to obtain coating of FeAl alloy.
出处
《中国有色金属学会会刊:英文版》
CSCD
1999年第S1期309-317,共9页
Transactions of Nonferrous Metals Society of China
