References
- Chen DS, Song B, Wang LN, et al. Solid state reduction of Panzhihua titanomagnetite concentrates with pulverized coal. Miner Eng. 2011;24:864–869. doi: 10.1016/j.mineng.2011.03.018
- Liao R, Yang B. Review on treatment and utilization of bauxite residues in China. China Nonferrous Met. 2010;27:27.
- Ma J, Sun X, Diao R. Theory and practice of blast furnace operation with V-Ti-magnetite. Beijing: Metallurgical Industrial Publisher China; 2000.
- Sun HY, Wang JS, Dong XJ, et al. A literature review of titanium slag metallurgical processes. Met Int. 2012;17:49.
- Jiao KX, Zhang JL, Liu ZJ, et al. Dissection investigation of Ti(C,N) behavior in blast furnace hearth during vanadium titano-magnetite smelting. ISIJ Int. 2017;57:48–54. doi: 10.2355/isijinternational.ISIJINT-2016-419
- Jiao KX, Zhang JL, Wang ZY, et al. Cover picture: steel research int. 1/2016. Steel Res Int. 2016;87:1. doi: 10.1002/srin.201500423
- Guo BY, Paul Z, Daniel M, et al. A model to simulate titanium behavior in the iron blast furnace hearth. Metall Mater Trans B. 2010;41:876–885. doi: 10.1007/s11663-010-9384-2
- Jiao KX, Zhang JL, Zuo HB, et al. Control model of effective Ti content for hearth protection by titanium-bearing material. J Northeastern Univ(Nat Sci). 2014;35:1160.
- Jiao KX, Zhang JL, Liu ZJ, et al. Formation mechanism of the protective layer in a blast furnace hearth. Int J Min Met Mater. 2015;22:1017–1024. doi: 10.1007/s12613-015-1163-2
- Wei MF, Zhang JL, Liiu ZJ, et al. Reduction behavior of titanium in titanium-low slags. Iron Steel Vanadium Titanium. 2013;34:41.
- Wang ZY, Zhang JL, Xing XD, et al. Congregated electron phase and wagner model applied in titanium distribution behavior in low-titanium slag. Trans Nonferrous Met Soc. 2015;25:1640–1647. doi: 10.1016/S1003-6326(15)63769-4
- Zhang L, Jahanshahi S, Sun S, et al. CSIRO’s multiphase reaction models and their industrial applications. JOM. 2002;54:51–56. doi: 10.1007/BF02709751
- Chen C, Zhang L, Lehmann J. Thermodynamic modelling of phosphorus in steelmaking slags. High Temp Mater Proc. 2013;32:237.
- Chen C. Application of MPE model to iron ore sintering, ironmaking and steelmaking processes. Steel Res Int. 2015;86:612–618. doi: 10.1002/srin.201400359
- Robert JN, Rian JD, Lu WK. Developments in blast furnace process control at port kembla based on process fundamentals. Metall Trans B. 2000;31B:996.
- Wang QX. Vanadium titanium magnetite smelt in blast furnace. Beijing: Metallurgical Industry Press; 1994, p. 100.
- Liang YJ, Che YC. Manual of inorganic thermodynamics. Shenyang: Northeastern University Press; 1993. p. 476.
- Andersson MA, Jonsson PG, Nzotta MM. Application of the sulphide capacity concept on high-basicity ladle slags used in bearing-steel production. ISIJ Int. 1999;39:1140–1149. doi: 10.2355/isijinternational.39.1140
- Htach GG, Chipman J. Sulphur equilibria between iron blast furnace slags and metal. J Met Trans. 1949;1:274.
- Turkdogan ET. Blast furnace reactions. Metall Trans B. 1978;9B:163–179. doi: 10.1007/BF02653682
- Shankar A. Sulphur partition between hot metal and high alumina blast furnace slag. Ironmak Steelmak. 2006;33:413–418. doi: 10.1179/174328106X113968