The dynamic recrystallization behavior of 35CrMo steel was studied with compression test in the temperature range of 1 223-1 423 K and the strain rate range of 0.01-10.00 s(-1). The initiation and evolution of dynamic recrystallization were investigated with microstructure analysis and then the critical strain E, for dynamic recrystallization initiation, the strain for maximum softening rate epsilon(*) and the steady strain E. were obtained to be 2.92X10(-3)Z(0.1381), 1.60X10(-3)Z(0.1780) and 3.26X10(-2)XZ(0.0972) respectively by analysis of work-hardening rate-strain 04 curves, where Z is the Zener-Hollomon parameter. The dynamic recrystallization fraction was determined using recrystallization theory, and the effects of initial grain size, strain rate and deformated temperature on the dynamic recrystallization kinetics were investigated. The results show: X-DRX = 1 - exp(-3.23( epsilon-epsilon(c)/epsilon(s)-epsilon(c))2.28), the dynamic recrystallization fraction is slightly delayed due to the es -cc somewhat larger initial grain size and markedly delayed with the decrease of temperature. On the other hand, it is significantly accelerated with the increase of the strain rate. Finally the relationships between the initiation time, ending time of dynamic recrystallization and the deformed temperature were analyzed in detail.

• 出版日期2003-3
• 单位上海交通大学