ժҪ To reveal the effects of magnesium on the evolution of oxide and sulphide inclusions in liquid iron, both thermodynamic calculations and deoxidization experiments were carried out. The samples extracted from the liquid iron were polished and analyzed by optical microscopy and scanning electron microscopy. The results showed that magnesium could modify oxide and sulphide inclusions simultaneously. Spherical MgO and irregular spinel inclusions were observed in the samples. The elongated MnS inclusions were replaced by small MgO��MgS or MgO��MgS��MnS complex inclusions, and the sulphides were distributed dispersively. The evolution mechanisms of inclusions were discussed comprehensively, and a proposed model for the formation of oxysulphide was set up.
Abstract��To reveal the effects of magnesium on the evolution of oxide and sulphide inclusions in liquid iron, both thermodynamic calculations and deoxidization experiments were carried out. The samples extracted from the liquid iron were polished and analyzed by optical microscopy and scanning electron microscopy. The results showed that magnesium could modify oxide and sulphide inclusions simultaneously. Spherical MgO and irregular spinel inclusions were observed in the samples. The elongated MnS inclusions were replaced by small MgO��MgS or MgO��MgS��MnS complex inclusions, and the sulphides were distributed dispersively. The evolution mechanisms of inclusions were discussed comprehensively, and a proposed model for the formation of oxysulphide was set up.
��������:National Natural Science Foundation of China;Fundamental Research Funds for the Central Universities of China;Fundamental Research Funds for the Central Universities of China
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E-mail: neu_zts@163.com
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Tong-sheng ZHANG,De-yong WANG,Mao-fa JIANG. Effect of Magnesium on Evolution of Oxide and Sulphide in Liquid Iron at 1873 K[J]. �й������ڿ���, 2014, 21(12): 1073-1080.
Tong-sheng ZHANG,De-yong WANG,Mao-fa JIANG. Effect of Magnesium on Evolution of Oxide and Sulphide in Liquid Iron at 1873 K. Chinese Journal of Iron and Steel, 2014, 21(12): 1073-1080.