Abstract:Two kinds of novel cored wires for producing Fe₃Al-based intermetallic compound alloy coatings by using high velocity arc spray technique were developed. The microstructure, chemical composition and phase structure of Fe₃Al-based coatings were investigated. The tribological properties of thermal spray formed Fe₃Al-based coatings at temperature ranging up to 650℃ were determined on a pin-on-disk type wear tester. Results show that: the matrix consists of Fe₃Al and FeAl phases, which have the average chemical composition of 29%Al(mole fraction); the matrix of Fe₃Al/WC composite coating consists of 26%Al(mole fraction); Fe₃Al/WC composite coating exhibits excellent friction reduction and wear resistance at elevated temperature. The relative wear resistance of Fe₃Al/WC composite coating is 1.92 times and 9.23 times higher than that of the mild steel at temperature of 450℃ and 650℃, respectively. The main reasons for wear resistance improvement are the reinforcement of WC/W₂C hard particles to the Fe₃Al alloy matrix and the formation of self-protective continuous oxide film on the composite coating surface at elevated temperature.

Key words: thermal spray formation; Fe₃Al-based coating; tribology at elevated temperature