Details Details PDF BIBTEX RIS Title Options to Prevent Dicalcium Silicate-Driven Disintegration of Stainless Steel Slags Journal title Archives of Metallurgy and Materials Yearbook 2010 Issue No 4 December Authors Pontikes, Y. ; P. Jones ; Geysen, D. ; Blanpain, B. Divisions of PAS Nauki Techniczne Publisher Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Commitee on Metallurgy of Polish Academy of Sciences Date 2010 Identifier DOI: 10.2478/v10172-010-0020-6 ; ISSN 1733-3490 Source Archives of Metallurgy and Materials; 2010; No 4 December References Durinck D. (2008), Hot stage processing of metallurgical slags, Resour. Conserv. Recy, 52, 10, 1121. ; The European Slag Association. Legal Status of Slags, Position Paper, Duisburg, Germany, 2006. ; Geysen D. (2010), Slag valorisation, as an example of high temperature industrial ecology. In EPD Congress 2010, null, 877. ; Juckes L. (2002), Dicalcium silicate in blast-furnace slag: a critical review of the implications for aggregate stability, Mineral Processing and Extractive Metallurgy: Transactions of the Institute of Mining and Metallurgy, Section C, 111, 120. ; Thomas G. (1978), The beta to gamma dicalcium silicate phase transformation and its significance on air-cooled slag stability, Silic. Ind, 195. ; Seki A. (1986), Development of dusting prevention stabilizer for stainless steel slags, Kawasaki Steel Giho, 18, 1, 20. ; Fletcher J. (1993), Phase relations in the system CaO-B<sub>2</sub>O<sub>3</sub>-SiO<sub>2</sub>, J. Mater. Sci, 28, 10, 2677. ; Ghose A. (1983), Microstructural characterization of doped dicalcium silicate polymorphs, J. Mater. Sci, 18, 10, 2905. ; Durinck D. (2008), Borate distribution in stabilized stainless-steel slag, J. Am. Ceram. Soc, 91, 2, 548. ; Branca T. (2009), A way to reduce environmental impact of ladle furnace slag, Ironmaking and Steelmaking, 36, 597. ; Christogerou A. (2009), Use of boron wastes in the production of heavy clay ceramics, Ceram. Int, 35, 1, 447. ; Christogerou A. (2010), Evolution of microstructure, mineralogy and properties during firing of clay-based ceramics with borates, Ceram. Int, 36, 2, 567. ; Ghosh S. (1979), Review. The chemistry of dicalcium silicate mineral, J. Mater. Sci, 14, 7, 1554. ; Lai G. (1992), Studies of the stability of β-Ca<sub>2</sub>SiO<sub>4</sub> doped by minor ions, Cem. Concr. Res, 22, 5, 743. ; Geiseler J. (2000), Properties of iron and steel slags regarding their use, null. ; Lopatin D. (2007), Advances in metallurgical processes and materials, 481. ; Yang Q. (2006), Aistech, 573. ; Yang Q. (2009), Modification study of a steel slag to prevent the slag disintegration after metal recovery and to enhance slag utilization, null. ; Parker T. (1942), Investigations on ‘falling’ blast furnace slags, Journal of the Iron and Steel Institute, 11, 21. ; Guo M. (2007), EAF stainless steel refining - Part I: Observational study on chromium recovery in an eccentric bottom tapping furnace and a spout tapping furnace, Steel Res. Int, 78, 2, 117. ; Sakamoto N. (2001), Effects of MgO based glass addition on the dusting of stainless steel slag (development of control process of stainless steel slag dusting-3), Current Advance in Materials and Processes, 14, 4, 939. ; M. Kühn, H. Behmenburg, Decreasing the scorification of chrome., Report EUR 19382, Primary Steelmaking, European Commission 39, Luxembourg, 2000. ; Kühn M. (2000), Treatment of liquid steel slags, null. ; Kitamura S. (2009), Modification of stainless steel refining slag through missing with nonferrous smelting slag, null. ; Stark J. (1980), Contributions to active belite cement, part 2: Influence of cooling conditions of cement strength, Silikat-technik, 31, 2, 50. ; Chan C. (1992), Physical Stabilization of the β¿γ Transformation in Dicalcium Silicate, J. Am. Ceram. Soc, 75, 6, 1621. ; Sakamoto N. (1996), Effect of cooling process to crystallization of stainless steel slag (development of control process of stainless steel slag dusting-1), Current Advance in Materials and Processes, 9, 4, 803. ; Sakamoto N. (2000), Inhibition mechanism of dusting on stainless steel slag with additive B<sub>2</sub>O<sub>3</sub> (development of control process of stainless steel slag dusting-2), Current Advance in Materials and Processes, 13, 4, 862. ; Yang Q. (2005), AOD slag treatments to recovermetal and to prevent slag dusting, null.