Quantitative influence of solidification path on solute micro-segregation and inclusion precipitation in the solidification process of rail steel

Quantitative influence of solidification path on solute micro-segregation and inclusion precipitation in the solidification process of rail steel

A solute redistribution model, which takes the phase transformation and MnS precipitation during the solidification of rail steel into consideration, was established. The influence of solidification path on solute micro-segregation and inclusion precipitation was quantitatively analyzed. Furthermore...

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Bibliographic Details
Main Authors: Xinliang Gao, Wenyue Ba, Chenyang Wang, Zhuangzhuang Zhang, Yinlong Wang, Tengfei Li, Zhinan Yang, Fucheng Zhang
Format: Article
Language:English
Published: Elsevier 2025-01-01
Series:Journal of Materials Research and Technology
Subjects:
Solidification path
Solute micro-segregation
Inclusion precipitation
Rail steel
Online Access:http://www.sciencedirect.com/science/article/pii/S2238785424028990
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Summary:A solute redistribution model, which takes the phase transformation and MnS precipitation during the solidification of rail steel into consideration, was established. The influence of solidification path on solute micro-segregation and inclusion precipitation was quantitatively analyzed. Furthermore, the effects of MnS inclusion precipitation, equilibrium distribution coefficient (ki), and back-diffusion coefficient (βi) on solute micro-segregation were investigated. The results indicate that the solidification path significantly influences solute micro-segregation and MnS precipitation in the solidification process. When the carbon content ranges from 0.018% to 0.054%, the peritectic transformation occurs at the end of solidification, and the carbon content significantly affects MnS inclusion precipitation and solute micro-segregation. The carbon content influences solute redistribution through the changes in solidification temperature and phase composition, resulting in the variations in ki and βi, which in turn affects solute micro-segregation. The impact of ki on solute micro-segregation is significantly influenced by phase composition, while βi is affected by both temperature and phase composition. There is a competitive relationship between ki and βi concerning solute micro-segregation. The research findings provide a foundation for further elucidating the laws of solute redistribution during the solidification of molten steel, thereby effectively improving the quality of rail steel casting bloom.
ISSN:2238-7854

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