Bimodal grain size and mechanical properties enhancement in low carbon steel by ultra-rapid annealing

Different heating rates of 200–1200 deg;C/s were utilized during ultra-rapid annealing (URA) up to the temperatures of 730 and 760 °C on the severely deformed low carbon steel. Higher hardness, strength and ductility achieved for the sample heated at 730 °C with 600 °C/s due to formation of bimodal grain size (BGS) microstructure than them for non-BGS samples. The BGS enhancement for the hardness, strength and ductility with respect to those of as received sample was 67%, 80% and 7%, respectively, and, with respect to those of severely deformed one was 16%, 44% and 24%, respectively. URA with the heating rate of 200 °C/s and 1000 °C/s leads to fully recrystallized and non-recrystallized microstructures, respectively. Also, BGS microstructure in heating rate of 1200 °C/s can be formed if the peak temperature of URA is increased proportionally to the increased heating rate.