Carburization is a technological process for increasing the service life of steel by enhancing its abrasion resistance. However, carburization has low productivity because it takes a long time, and the increase in the carburizing temperature of low carbon steel to reduce carburization time causes coarsening of the prior austenite grains, which results in the decrease in the mechanical properties.
Kim Myong Gwon, a researcher at the Faculty of Materials Science and Technology, has simulated the phase constitutions of low alloy steel 18CrMn and Ti-and-Nb-microalloyed steel 18CrMnTiNb, and analyzed their microstructures and mechanical properties when they were carburized at high temperature.
The steel 18CrMnTiNb, which is microalloyed with 0.06% Ti and 0.06% Nb, has fine grain size after being carburized at 1 000℃. Its prior austenite grain size is less than 25μm. The experimental results show that high-temperature carburization of Ti-and-Nb microalloyed low carbon steels can significantly reduce the carburizing time and provide sufficient mechanical properties.
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