Abstract
Based on the steady-state strain measured by single-pass hot compression tests, the method by a double-pass hot compression testing was developed to measure the metadynamic-recrystallization kinetics. The metadynamic recrystallization behavior of low-alloy steel Q345B during hot compression deformation was investigated in the temperature range of 1 000–1 100 °C, the strain rate range of 0.01–0.10 s−1 and the interpass time range of 0.5–50 s on a Gleeble-3500 thermo-simulation machine. The results show that metadynamic recrystallization during the interpass time can be observed. As the deformation temperature and strain rate increase, softening caused by metadynamic recrystallization is obvious. According to the data of thermo-simulation, the metadynamic recrystallization activation energy is obtained to be Q md=100.674 kJ/mol and metadynamic recrystallization kinetics model is set up. Finally, the error analysis of metadynamic recrystallization kinetics model proves that the model has high accuracy (correlation coefficient R=0.988 6).
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Foundation item: Project(101048) supported by Fok Ying Tung Education Foundation; Project(E2008000835) supported by the Natural Science Foundation of Hebei Province, China
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Ma, B., Peng, Y., Liu, Yf. et al. Modeling of metadynamic recrystallization kinetics after hot deformation of low-alloy steel Q345B. J. Cent. South Univ. Technol. 17, 911–917 (2010). https://doi.org/10.1007/s11771-010-0576-3
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DOI: https://doi.org/10.1007/s11771-010-0576-3