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| Application of phase-field modeling in solid-state phase transformation of steels |
| Shao-jie Lv1, Shui-ze Wang1,2, Gui-lin Wu1,2, Jun-heng Gao1,2, Xu-sheng Yang3, Hong-hui Wu1,2, Xin-ping Mao1,2 |
1 Beijing Advanced Innovation Center for Materials Genome Engineering, University of Science and Technology Beijing, Beijing 100083, China
2 Yangjiang Branch, Guangdong Laboratory for Materials Science and Technology (Yangjiang Advanced Alloys Laboratory), Yangjiang 529500, Guangdong, China
3 Department of Industrial and Systems Engineering, The Hong Kong Polytechnic University, Kowloon, Hong Kong, China |
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Abstract Solid-state phase transformation is usually associated with excellent mechanical properties in steel materials. A deep understanding of the formation and evolution of phase structure is essential to tailor their service performance. As a powerful tool for capturing the evolution of complex microstructures, phase-field simulation quantitatively calculates the phase structures evolution without explicit assumptions about transient microstructures. With the development of advanced numerical technology and computing ability, phase-field methods have been successfully applied to solid-state phase transformation in steels and greatly support the research and development of advanced steel materials. The phase-field simulations of solid-phase transformation in steels were summarized, and the future development was proposed.
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Received: 23 December 2021
Published: 25 June 2022
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| Cite this article: |
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Shao-jie Lv,Shui-ze Wang,Gui-lin Wu, et al. Application of phase-field modeling in solid-state phase transformation of steels[J]. Journal of Iron and Steel Research International, 2022, 29(6): 867-880.
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2022, Vol. 29 
