Grain growth behavior of niobium microalloyed 20MnCr5 steel and the effect of boronKornwachstumsverhalten von mit Niob mikrolegiertem 20MnCr5 Einsatzstahl und der Effekt von Bor

Grain growth behaviors of niobium free, 0.021 wt. % niobium microalloyed and 0.024 wt. % niobium-0.0022 wt. % boron microalloyed 20MnCr5 steels are investigated in this paper. Optical microscopy and field-emission scanning electron microscopy were used to analyze the prior austenite grain. Transmission electron microscopy and energy dispersive spectroscopy were used to investigate the morphologies and compositions of the precipitates, respectively. The results show that adding niobium reduces the size of prior austenite grain. The addition of boron to niobium microalloyed steel, however, causes grain coarsening. Thermodynamic and kinetic calculations were performed to explain the mechanism of grain growth behavior. The results indicate that the addition of niobium and boron causes the difference in solution temperatures of aluminum nitride and niobium carbonitride precipitates. The addition of boron inhibits the precipitation of niobium carbonitride and aluminum nitride and causes precipitates coarsening. The precipitation observation backs up the calculation results.

Automated summary

In this paper, the grain growth behaviors of niobium-free, 0.021 wt. % niobium microalloyed, and 0.024 wt. % niobium-0.0022 wt. % boron microalloyed 20MnCr5 steels were investigated. It was found that the addition of niobium reduces the prior austenite grain size, while the addition of boron causes grain coarsening. Thermodynamic and kinetic calculations were performed to explain the mechanism behind these grain growth behaviors, which is attributed to the difference in solution temperatures of the precipitates.