Inclusions Chemistry for Mn/Si Deoxidized Steels : Thermodynamic Predictions and Experimental Confirmations
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概要
- 論文の詳細を見る
Inclusions chemistry of Mn/Si deoxidized steel was studied through both thermodynamic computation and experimental method. The computational thermodynamics has proved to provide a powerful tool for controlling inclusions and precipitates in steel. For Mn/Si deoxidized steels, important factors in determining the liquidus temperature and primary phase of the inclusions are MnO/SiO2 ratio and Al2O3 content in inclusions. Provided that no further interaction with steel matrix during cooling, inclusions having MnO/SiO2 mass% ratio near unity and Al2O3 content in the range of 10-20 mass% give low liquidus temperatures (1150-1200°C) and primary phases of MnSiO3 and Mn3Al2Si3O12 both which are soft. For the case of Mn+Si=1.0 in mass%, the Mn/Si ratio of 2-5 meets the above conditions. Effect of the top slag on the inclusions chemistry can be predicted with accuracy, and hence it is possible to control the inclusions chemistry through proper design of the top slag composition so that the inclusions show a low liquidus temperature and soft primary phase. As the inclusions composition gradually changes with time toward the top slag composition, the length of refining time which determines the extent of reaction with the top slag is an important factor in determining the inclusions chemistry.
- 社団法人 日本鉄鋼協会の論文
- 2004-06-15
著者
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Lee Hae-geon
Department Of Materials Science And Engineering Pohang University Of Science And Technology (postech
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Kang Youn-bae
Department Of Materials Science And Engineering Pohang University Of Science And Technology (postech
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Lee Hae-geon
Department Of Materials Science & Engineering Pohang University Of Science & Technology (pos
関連論文
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- Phase Equilibria and Thermodynamic Properties of the CaO-MnO-Al_2O_3-SiO_2 System by Critical Evaluation, Modeling and Experiment
- Critical Thermodynamic Evaluation and Optimization of the CaO-MnO-SiO_2 and CaO-MnO-Al_2O_3 Systems
- Thermodynamic Modeling of the CaO-MnO-SiO_2-Al_2O_3 System to Predict Inclusion Behavior in Mn/Si Deoxidized Steel
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- Modelling of Break-up of Liquid Drops Impacting on Immiscible Liquids
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- Model Development of Slag Foaming
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- Thermodynamic Evaluation of the Surface Tension of Molten CaO-SiO_2-AI_2O_3 Ternary Slag
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