Microstructure evolution modeling and simulation for dynamic recrystallization of Cr12MoV die steel during hot compression based on real metallographic image
In this work, microstructure evolution of dynamic recrystallization (DRX) behavior in Cr12MoV die steel was investigated via experiments and simulations systematically. Firstly, hot compression tests were performed to obtain the true stress–strain curves. Based on the experimental results, the flow...
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sg-ntu-dr.10356-1508322021-07-30T11:06:35Z Microstructure evolution modeling and simulation for dynamic recrystallization of Cr12MoV die steel during hot compression based on real metallographic image Sun, F. Zhang, D. Q. Cheng, L. Zheng, Pai Liao, D. M. Zhu, B. School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Cr12MoV Die Steel Hot Deformation In this work, microstructure evolution of dynamic recrystallization (DRX) behavior in Cr12MoV die steel was investigated via experiments and simulations systematically. Firstly, hot compression tests were performed to obtain the true stress–strain curves. Based on the experimental results, the flow stress model was established, and Avrami equation was developed to model the kinetics of DRX. Then, the cellular automaton (CA) model was established to describe DRX behavior. In order to obtain more accurate simulation results, a microstructure enhancement, extraction and conversion program based on fingerprint image enhancement algorithm was developed to generate real initial microstructure which could be directly used in CA simulation. With real initial microstructure generation, good agreement between simulated and experimental results was achieved, indicating the high accuracy of the established CA model. Finally, the CA model was employed to investigate the hot deformation behavior of Cr12MoV die steel under multiple thermomechanical conditions. It could be found that a lower strain rate was beneficial to the occurrence of DRX. When the strain rate was beyond 1.0 s⁻¹, the DRX fraction was very small. This work would provide a significant guidance to optimize the hot working process of Cr12MoV die steel or some other similar steels. This research is supported by the National Science Fund for Distinguished Young Scholars (NSFC51725504), the Program for New Century Excellent Talents in University (NCET-13-0229) and the National Science & Technology Key Projects of Numerical Control (2012ZX04010-031). 2021-07-30T11:06:35Z 2021-07-30T11:06:35Z 2019 Journal Article Sun, F., Zhang, D. Q., Cheng, L., Zheng, P., Liao, D. M. & Zhu, B. (2019). Microstructure evolution modeling and simulation for dynamic recrystallization of Cr12MoV die steel during hot compression based on real metallographic image. Metals and Materials International, 25(4), 966-981. https://dx.doi.org/10.1007/s12540-019-00249-8 1598-9623 0000-0001-8035-4842 https://hdl.handle.net/10356/150832 10.1007/s12540-019-00249-8 2-s2.0-85061067951 4 25 966 981 en Metals and Materials International © 2019 The Korean Institute of Metals and Materials. All rights reserved. |
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Engineering::Mechanical engineering Cr12MoV Die Steel Hot Deformation Sun, F. Zhang, D. Q. Cheng, L. Zheng, Pai Liao, D. M. Zhu, B. Microstructure evolution modeling and simulation for dynamic recrystallization of Cr12MoV die steel during hot compression based on real metallographic image |
| description |
In this work, microstructure evolution of dynamic recrystallization (DRX) behavior in Cr12MoV die steel was investigated via experiments and simulations systematically. Firstly, hot compression tests were performed to obtain the true stress–strain curves. Based on the experimental results, the flow stress model was established, and Avrami equation was developed to model the kinetics of DRX. Then, the cellular automaton (CA) model was established to describe DRX behavior. In order to obtain more accurate simulation results, a microstructure enhancement, extraction and conversion program based on fingerprint image enhancement algorithm was developed to generate real initial microstructure which could be directly used in CA simulation. With real initial microstructure generation, good agreement between simulated and experimental results was achieved, indicating the high accuracy of the established CA model. Finally, the CA model was employed to investigate the hot deformation behavior of Cr12MoV die steel under multiple thermomechanical conditions. It could be found that a lower strain rate was beneficial to the occurrence of DRX. When the strain rate was beyond 1.0 s⁻¹, the DRX fraction was very small. This work would provide a significant guidance to optimize the hot working process of Cr12MoV die steel or some other similar steels. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Sun, F. Zhang, D. Q. Cheng, L. Zheng, Pai Liao, D. M. Zhu, B. |
| format |
Article |
| author |
Sun, F. Zhang, D. Q. Cheng, L. Zheng, Pai Liao, D. M. Zhu, B. |
| author_sort |
Sun, F. |
| title |
Microstructure evolution modeling and simulation for dynamic recrystallization of Cr12MoV die steel during hot compression based on real metallographic image |
| title_short |
Microstructure evolution modeling and simulation for dynamic recrystallization of Cr12MoV die steel during hot compression based on real metallographic image |
| title_full |
Microstructure evolution modeling and simulation for dynamic recrystallization of Cr12MoV die steel during hot compression based on real metallographic image |
| title_fullStr |
Microstructure evolution modeling and simulation for dynamic recrystallization of Cr12MoV die steel during hot compression based on real metallographic image |
| title_full_unstemmed |
Microstructure evolution modeling and simulation for dynamic recrystallization of Cr12MoV die steel during hot compression based on real metallographic image |
| title_sort |
microstructure evolution modeling and simulation for dynamic recrystallization of cr12mov die steel during hot compression based on real metallographic image |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/150832 |
| _version_ |
1707050407496253440 |