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| Main Authors: | , , , , , , , , , |
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| Format: | Preprint |
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2026
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2605.08620 |
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| _version_ | 1866911664937369600 |
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| author | Ma, Xiaoping Li, Dianzhong Zhao, Zhuo Cao, Saichao Pei, Donghao Wang, Pei Tao, Yuxi Fu, Paixian Liu, Hongwei Kang, Xiuhong |
| author_facet | Ma, Xiaoping Li, Dianzhong Zhao, Zhuo Cao, Saichao Pei, Donghao Wang, Pei Tao, Yuxi Fu, Paixian Liu, Hongwei Kang, Xiuhong |
| contents | Based on classical concept, solidification of alloys is a direct transition from liquid phase to solid phase, by which dendrites and dendritic segregation are produced. Through in-situ and real time morphology observation and XRD test during solidification of three steels, a new superite phase featured as statistically oriented tiny structures was identified, and a general liquid-superite-solid phase transformation process is revealed. In the early solidification stage, the liquid alloys transit to dendrites composed of superite phase. Initiated from the boundaries of dendritic arms or dendrite grains, the superite phase transits to austenite grains within an initial dendritic arm, and expels solute elements to the residual superite phase. Mixed multi-phase microstructures are subsequently produced from the residual enriched superite phase. Here, although three steels exhibit different phase proportion and phase constitution in the superite-solid transition, they all follow above general transition mode. Multiscale microstructures and segregations are produced in the transition from superite to solid. These new findings change the basic understanding about the solidification of alloys, rediscover the formation mechanism on segregations and multiscale solidification microstructures, including dendrite pattern, solid dendritic arm, dendritic segregation, the mixed multi-phase microstructures, eutectic, inclusions and precipitate. These new findings are also crucial to the control of solidification microstructures and segregation in metals. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2605_08620 |
| institution | arXiv |
| publishDate | 2026 |
| record_format | arxiv |
| spellingShingle | The superite phase and phase transition inducing multiscale solidification microstructures and segregations in steels Ma, Xiaoping Li, Dianzhong Zhao, Zhuo Cao, Saichao Pei, Donghao Wang, Pei Tao, Yuxi Fu, Paixian Liu, Hongwei Kang, Xiuhong Materials Science Based on classical concept, solidification of alloys is a direct transition from liquid phase to solid phase, by which dendrites and dendritic segregation are produced. Through in-situ and real time morphology observation and XRD test during solidification of three steels, a new superite phase featured as statistically oriented tiny structures was identified, and a general liquid-superite-solid phase transformation process is revealed. In the early solidification stage, the liquid alloys transit to dendrites composed of superite phase. Initiated from the boundaries of dendritic arms or dendrite grains, the superite phase transits to austenite grains within an initial dendritic arm, and expels solute elements to the residual superite phase. Mixed multi-phase microstructures are subsequently produced from the residual enriched superite phase. Here, although three steels exhibit different phase proportion and phase constitution in the superite-solid transition, they all follow above general transition mode. Multiscale microstructures and segregations are produced in the transition from superite to solid. These new findings change the basic understanding about the solidification of alloys, rediscover the formation mechanism on segregations and multiscale solidification microstructures, including dendrite pattern, solid dendritic arm, dendritic segregation, the mixed multi-phase microstructures, eutectic, inclusions and precipitate. These new findings are also crucial to the control of solidification microstructures and segregation in metals. |
| title | The superite phase and phase transition inducing multiscale solidification microstructures and segregations in steels |
| topic | Materials Science |
| url | https://arxiv.org/abs/2605.08620 |