References
- Todoroki H and Inada S: ‘Recent innovation and the prospect in production technology of specialty steels with high cleanliness’, Bull. Iron Steel Inst. Jpn, 2003, 8, (8), 575–580.
- Park JH and Todoroki H: ‘Control of MgO.Al2O3 spinel inclusions in stainless steels’, ISIJ Int., 2010, 50, (10), 1333–1346.
- Frank L: ‘Castability-fom alumina to spinels’, Iron Steelmaker, 1999, 26, (4), 33–39.
- Kor GJW: ‘Calcium treatment of steels for castability’, Proc. 1st Int. Calcium Treatment Symp., Glasgow, UK, June 1988, The Institute of Metals, 39–44.
- Verma N, Pistorius P, Fruehan R, Potter M, Oltmann H and Pretorius E: ‘Calcium modification of spinel inclusions in aluminum-killed steel: reaction steps’, Metall. Mater. Trans. B, 2012, 43B, (4), 830–840.
- Pretorius EB, Oltmann HG and Cash T: ‘The effective modification of spinel inclusions by Ca treatment in LCAK steel’, Iron Steel Technol., 2010, 7, (7), 31–44.
- Dekkers R, Blanpain B and Wollants P: ‘Nozzle plugging of calcium-treated steel’, AIST Trans., 2004, 1, 92–98.
- Fuhr F, Cicutti C, Walter G and Torga G: ‘Relationship between nozzle deposits and inclusion composition in the continuous casting of steels’, Iron Steelmaker, 2003, 32, (12), 53–58.
- Geldenhuis JMA and Pistorius PC: ‘Minimisation of calcium additions to low carbon steel grades’, Ironmaking Steelmaking, 2000, 27, (6), 442–449.
- Pistorius CP, Presoly P and Tshilombo KG: ‘Magnesium: origin and role in calcium-treated inclusions’, SOHN Int. Symp. on ‘Advanced processing of metals and materials: principles, technologies and industrial practice’, San Diego, CA, USA, August 2006, AIME, 373–378.
- Okuyama G, Yamaguchi K, Takeuchi S and Sorimachi KI: ‘Effect of slag composition on the kinetics of formation of Al2O3–MgO inclusions in aluminum killed ferritic stainless steel’, ISIJ Int., 2000, 40, (2), 121–128.
- Chang CH, Jung IH, Park SC, Kim HS and Lee HG: ‘Effect of Mg on the evolution of non-metallic inclusions in Mn–Si–Ti deoxidised steel during solidification: experiments and thermodynamic calculations’, Ironmaking Steelmaking, 2005, 32, (3), 251–257.
- Verma N, Pistorius P, Fruehan R, Potter M, Lind M and Story S: ‘Transient inclusion evolution during modification of alumina inclusions by calcium in liquid steel: Part I. background, experimental techniques and analysis methods’, Metall. Mater. Trans. B, 2011, 42B, (4), 711–719.
- Kang YJ, Fan L, Kazuki M and Du S: ‘Mechanism study on the formation of liquid calcium aluminate inclusion from MgO–Al2O3 spinel’, Steel Res. Int., 2006, 77, (11), 785–792.
- Faulring G.-M, Farrell JW and Hilty DC: ‘Steel flow through nozzles: influence of calcium’, Electric Furnace Conference Proceedings, Toronto, Canada, 1979, ISS-AIME, Vol. 37, 219–229.
- Beskow K and Sichen D: ‘Ladle glaze: major source of oxide inclusions during ladle treatment of steel’, Ironmaking Steelmaking, 2004, 31, (5), 393–400.
- Verma N, Pistorius PC, Fruehan RJ, Noh W and Potter M: ‘Modification of spinel inclusions by calcium in liquid steel’, Materials Science and Technology Conference and Exhibition, Pittsburgh, PA, USA, October 2009, Vol. 2, 1042–1053.
- Yang S.-F, Li J.-S, Wang Z.-f, Li J and Lin L: ‘Modification of MgO.Al2O3; spinel inclusions in Al-killed steel by Ca-treatment’, Int. J. Miner. Metall. Mater., 2011, 18, (1), 18–23.
- Seo C.-W, Kim S.-H, Jo S.-K, Suk M.-O and Byun S.-M: ‘Modification and minimization of spinel (Al2O3xMgO) inclusions formed in Ti-added steel melts’, Metall. Mater. Trans. B, 2010, 41, (4), 790–797.
- Park JH: ‘Formation mechanism of spinel-type inclusions in high-alloyed stainless steel melts’, Metall. Mater. Trans. B, 2007, 38B, (4), 657–663.
- Shi C.-B, Chen X.-C, Guo H.-J, Zhu Z.-J and Sun X.-L: ‘Control of MgO.Al2O3 spinel inclusions during protective gas electroslag remelting of die steel’, Metall. Mater. Trans. B, 2013, 44B, (2), 378–389.
- Yang S.-F, Li J.-S, Wang Z.-F, Li J and Lin L: ‘Modification of MgO.Al2O3; spinel inclusions in Al-killed steel by Ca-treatment’, Int. J. Miner. Metall. Mater., 2011, 18, (1), 18–23.
- Yang SF, Li JS, Zhang LF, Kent P and Wang ZF: ‘Behavior of MgO–Al2O3 based inclusions in alloy steel during refining process’, J. Iron Steel Res. Int., 2010, 17, (7), 1–6.
- Dogan N, Monaghan BJ, Longbottom R, Reid M and Tsekouras XX: ‘A novel laboratory technique for introducing inclusion to liquid steel’, Scanmet IV, 4th International Conference on Process Development in Iron and Steelmaking, Luleå, Sweden, June 2012, Vol. 1, 271–280.
- Turkdogan ET: ‘Fundamentals of steelmaking’, 10, 95; 1996, London, Institute of Materials.
- Gaskell DR: ‘Introduction to the thermodynamics of materials’, 585; 2003, New York, Taylor & Francis.
- Sigworth GK and Elliott JF: ‘Thermodynamics of liquid dilute iron alloys’, Met. Sci., 1974, 3, 298–310.
- Davies RH, Dinsdale AT, Gisby JA, Robinson JAJ and Martin SM: ‘MTDATA – thermodynamic and phase equilibrium software from the national physical laboratory’, CALPHAD, 2002, 26, (2), 229–271.
- Schamber F: ‘Introduction to automated particle analysis by focused electron beam’, 27, ASPEX Corporation, 2011, available at: www.aspexcorp.com
- Waldo RA: ‘A characteristic x-ray fluorescence correction for thin-film analysis by electron microprobe’, Microbeam Analysis 1991: Proceedings of the 26th Annual Conference of the Microbeam Analysis Society, San Jose, CA, USA, 1991, San Francisco Press, 45.
- Pouchou JL and Pichoir F: ‘Quantitative analysis of homogeneous or stratified microvolumes applying the model “PAP”’, Electron Probe Quant., 1991, 31–75.
- Gran J and Sichen D: ‘Experimental determination of Mg activities in Fe–Mg solutions’, Metall. Mater. Trans. B, 2011, 42B, (5), 921–924.
- Hino M and Ito K: ‘Thermodynamic data for steelmaking’, 259–264; 2010, Sendai, Tohoku University Press.
- Deer WA, Howie RA and Zussman J: ‘An introduction to the rock-forming minerals’, 2, 558; 1992, Harlow, Pearson Education Limited.