Rate of Desulphurization of Molten Iron by Slag under Reducing Condition
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概要
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The rate of transfer of sulphur across a metal-slag interface under reducing condition was studied at the temperature range from 1, 440°to 1, 570℃. Radioactive sulphur, S^<35>, was used to improve the accuracy of the experiment. The net rate of transfer of sulphur from metal to slag increases with increasing basicity of the slag and with temperature. This is ascribable to the fact that the rate of transfer of sulphur from metal to slag increases rapidly with increasing basicity of slag and with temperature, while that from slag to metal does not change appreciably with change in slag composition and temperature. In the case of high viscosity slags, the rate of transfer of sulphur was interpreted on an assumption that the transfer is the reaction of the first order, but this assumption was inadequate for explaining the experimental results obtained with low viscosity slags. The rate of transfer of sulphur seems to be affected remarkably by side reaction.
- 東北大学の論文
著者
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SAITO Tunezo
The Research Institute of Mineral Dressing and Metallurgy
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KAWAI Yasuji
The Research Institute of Mineral Dressing and Metallurgy
関連論文
- Diffusion of Some Alloying Elements in Liquid Iron
- Rate of Desulphurization of Molten Iron by Slag under Reducing Condition
- Diffusion of Calcium in Liquid Slags
- On the Viscosities of Molten Slags. I : Viscosities of CaO-SiO_2-Al_2O_3 Slags
- On the Viscosities of Molten Slags. II : Viscosities of CaO-SiO_2-Al_2O_3-MgO Slags
- Activity of Chromium in Liquid Iron-Chromium System
- Densities of Pure Iron, Cobalt and Nickel in the Molten State
- Absorption of Nitrogen by Molten Iron Alloys. I : Study on Pure Iron
- Diffusion of Silicon and Manganese in Liquid Iron. I : Diffusion in Liquid Iron Saturated with Carbon
- Rate of Desulphurization of Molten Iron by Slag under Reducing Condition. II : Influence of Silicon and Manganese
- Diffusion of Sulfur in Molten CaO-SiO_2-Al_2O_3 Slag
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- Elimination of Nitrogen Dissolved in Iron by Addition of Aluminium
- Diffusion of Sulfur in Liquid Iron. II : Diffusion of Liquid Iron Saturated with Carbon
- Diffusion of Slufur in Liquid Iron. I : Diffusion in Pure Iron
- Absorption of Nitrogen by Molten Iron Alloys. III : Study on Fe-C and Fe-Si Alloys