This paper deals with the kinetics of compound layer growth of steel En40B plasmas nitrided at 520°C for different time and establishes the corresponding mathematical model based on the thermodynamics and kinetic...This paper deals with the kinetics of compound layer growth of steel En40B plasmas nitrided at 520°C for different time and establishes the corresponding mathematical model based on the thermodynamics and kinetics of nitrogen diffusion process. The results show that the compound layer consists of dual phases e (Fe2-3N) and / (Fe4N) and its thickness increases with increasing nitriding time. The calculated data indicate that the critical concentration between compound layer and diffusion one is about 0.82wt%. The computer simulation results demonstrate that predicted compound layer thickness agrees with the measured data.展开更多
基金support from the key laboratory foundation of precision hot-forming for national defense science and technology.
文摘This paper deals with the kinetics of compound layer growth of steel En40B plasmas nitrided at 520°C for different time and establishes the corresponding mathematical model based on the thermodynamics and kinetics of nitrogen diffusion process. The results show that the compound layer consists of dual phases e (Fe2-3N) and / (Fe4N) and its thickness increases with increasing nitriding time. The calculated data indicate that the critical concentration between compound layer and diffusion one is about 0.82wt%. The computer simulation results demonstrate that predicted compound layer thickness agrees with the measured data.
