The relationship of time to minerals composition in sinters is investigated by mineragraphy are claritied observation and component analysis, and the effects of temperature and atmosphere on mineralization process. Results are obtained as follows. The initial melt forms below the eutectic temperature of CaO·Fe2O3 and CaO·2Fe2O3, which is complex substance containing Ca, Fe, Si and Al, rather than the binary calcium ferrite melt. Minerals composition of binding phase is related to local content of silica in melt, which is influenced by temperature. Appearance of the melt promotes the transition from hematite to magnetite, which then alters the mechanism of calcium ferrite formation. Before the formation of magnetite, the contents of Fe and Ca within the multiple calcium ferrite decrease with temperature, but in the case of magnetite presence, the content of Fe increases solely with increase of temperature and decrease of oxygen potential. Temperature and atmosphere determine minerals composition together, and bring influence on sintering process in different ways. It can be deduced that temperature affects kinetics of the mineralization process, but atmosphere just plays a role in thermodynamics.
参考文献
| [1] | |
| [2] | Zhang Ruitang,Li zhenming,Zhou Changqiang.The Effect of Coke Breeze Granularity on JIGANG Sinter Quality[J].Sintering and Pelletizing,2008,33(1): 54.[2] Shun Liming,Li Jianhong,Xia Zhihong et al.The Effect of Coke Size on Sintering Process[J].Sintering and Pelletizing,2000,25(2): 19.[3] Wu Zhijun,Gao Bin.Practicle to Reduce The Solid Fule Consumtion in Sintering Production of Lai Steel[J].Hei Bei Metallurgy,2006(6): 27.[4] Li Qiang,Qi Yuhui,Bi Xincheng et al.Research and Practice on the Reduction of Solid Fuel Consumption in the Sintering Plant[J].Science & Technology of Lai Steel (Group) Corporation,2007(3): 20.[5] Cui Yuyuan.Burning dynamic features of solid fuel sintering and measures for reducing consumption[J].Science & Technology of Baotou Steel (Group) Corporation,2000,26(4): 4.[6] Yu Yuanhao,Feng Gensheng,Su Dongxue. Measures of Improving Sinter Quality and Decreasing Fuel Consumption of Guofeng Blast Furnace Ironmaking[J]. Iron and Steel,2008,43(12): 99.[7] B. Phillips, A. Muan, J. Amer. Phase Equilibria in the System CaO-Iron Oxide in Air[J]. Ceram. Soc., 1958, 41(11): 445.[8] Liu Lanying. Formation Mechanism and Rational Technological Conditions of Sinters[J]. Science & Technology of Baotou Steel (Group) Corporation,1999(1):3.[9] Zhang Shijuan,Wang Shutong. Formation Mechanism of Acicular Calcium Ferrite[J]. Iron and Steel,1992,27(7): 7.[10] Fan Xiaohui,Meng Jun,Chen Xulinget al. Influence factors of calcium ferrite formation in iron ore sintering[J]. J. Cent. South Univ. (Science and Technology),2008,39(6):1125.[11] F. Matsuno. Changes of Mineral Phases during the Sintering of Fe2O3-CaO-SiO2 System[J]. Transactions ISIJ, 1979, 19: 595.[12] F. Matsuno, T. Harada. Changes of Mineral Phases during the Sintering of Iron Ore-Lime Stone System[J]. Transactions ISIJ, 1981, 21: 318.[13] Hsieh L H, Whiterman J A. Sintering Conditions for Simulating the Formation of Mineralphases in Industrial Iron Ore Sinter[J]. ISIJ International, 1989, 29(1): 24.[14] Hsieh L H, Whiterman J A. Effect of Oxygen Potential on Mineral Formation in Lime-fluxed Iron ore Sinter[J]. ISIJ International, 1989, 29(8): 625.[15] Jun Okazaki, Kenichi Higuchi, Yohozoh Hosotani, Kazuyuki Shinagawa. Influence of Iron Ore Characteristics on Penetrating Behavior of Melt into Layer[J]. ISIJ International,2003,43(9): 1384.[16] E. Kasai, Y. Sakano, T. Kawaguchi and T. Nakamure. Influence of Properties of Fluxing Materials on the Flow of Melt Formed in the Sintering Process[J]. ISIJ International, 2000, 40(9): 857.[17] C. E. Loo, W. Leung. Fators Inflencing the Bonding Phase Structure of Iron Ore Sinters[J]. ISIJ International, 2003, 43(9): 1393.[18] K. Nakashima, N. Saito, S. Shinozaki, R. Tanaka, T. Maesa, M. Shimizu and K. Mori. Wetting and Penetration Behavior of Calcium Ferrite Melts to Sintered Hematite[J]. ISIJ International, 2004, 44(12): 2052.[19] Guo Xinming, Peng Xin, et al. A method of automatic identification and quantification for primary minerals in the high basicity sinters: China, 200610114146[P]. 2007-04-11.[20] Guo Xingmin. Calcium Ferrite Formation and Mineralogy in Sintering Process[M]. BeiJing: Publish of Metallurgy Industry, 1999: 79.[21] B. Phillips, A. Muan, J. Amer. Equilibria in the System CaO-Iron Oxide-SiO2 in Air[J]. Ceram. Soc., 1959, 42(9): 413.[22] Y-H. Yang, N. Standish. Fundamental Mechanisms of Pore Formation in Iron Ore Sinter and Pellets[J]. ISIJ International, 1991, 31(5): 468.[23] D. Debrincat, C. E. Loo, M. F. Hutchens. Effect of Iron Ore Particle Assimilation on Sinter Structure[J]. ISIJ International, 2004, 44(3): 1308.[24] T. Otomo. Advanced Approach to Intelligent Agglomeration[J]. ISIJ, Tokyo, 1999: 221.[25] Eiki Kisai, Shengli Wu,Yasuo Omori. Factors Governing the Strength of Agglomerated Granules after Sintering[J]. ISIJ International, 1991, 31(1): 17. |
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