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Mineral carbonation of metallurgical slags

References Bodor, M., Santos, R. M., van Gerven, T., & Vlad, M. (2013). Recent developments and perspectives on the treatment of industrial wastes by mineral carbonation - a review. Central European Journal of Engineering, 3, 566-584. DOI: 10.2478/s13531-013-0115-8. Chaurand, P., Rose, J., Domas, J., & Bottero, J-Y. (2006): Speciation of Cr and V within BOF steel slag reused in road construction. Journal of Geochemical Exploration, 88, 10-14. Diener, S., Andreas, L., Herrmann, I., Ecke, H., & Lagerkvist, A

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Reactivity of Granulated Blast Furnace Slag

" . Norme française NF P 18-506, (1992) "Addition pour béton hydraulique, laitier vitrifié moulu de haut fourneau". Norme Européenne NF EN 197 - 1, (2001) "ciment - partie 1 Composition, spécifications et critères de conformité des ciments courants". Regourd M., et al (1980) "Caractérisation et activation thermique des ciments au laitier" 7th Congrès International de la Chimie des Ciments, Paris, Vol. 2, Thème III, pp. 105-111 Smolcyck H. G. (1980) "Slag structure and identification of slags" 7th Congrès International de la

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Flexural Fatigue performance of Alkali Activated Slag Concrete mixes incorporating Copper Slag as Fine Aggregate

References [1] Roy D. (1999). Alkali-activated cements - opportunities and challenges. Cement and Concrete Research. Vol.29, no.2, pp.249-254. [2] Shi, C., Krivenko, P.V. and Roy, D. (2006). Alkali-activated cements and concretes. United Kingdom: Taylor Francis, Abingdon. [3] Talling, B. and Krivenko, P.V.(1997). Blast furnace slag - the ultimate binder. In: S. Chandra Editor. Waste materials used in concrete manufacturing. pp.235-289, Noyes Publications. [4] Van Deventer, J.S.J., Provis, J.L., Duxson, P. and Brice, D.G. (2010). Chemical

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MECHANICAL PERFORMANCE OF BITUMINOUS CONCRETE INCORPORATING STEEL SLAG WITH NATURAL AGGREGATE

References Bagampadde U., Wahaab A and Aiban A. S., (1999), “Optimization of Steel Slag Aggregates for Bituminous Mixes in Saudi Arabia” Journal of Materials in Civil Engineering, ASCE, Vol. 11 No. 1,PP. 30-35. Central Pollution Control Board (CPCB) Report (2006-07), “Assessment of Utilization of Industrial Solid Wastes in Cement Manufacturing”, Program Objective Series, Probes/103/2006-07. Irem Z. Y. and Monica P., (2011), “Chemical, Mineralogical and Morphological Properties of Steel Slag”, Journal

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Statistical modeling of copper losses in the silicate slag of the sulfide concentrate smelting process

LITERATURE CITED 1. Schlesinger, M.E., King, M.J. & Sole, K.C. & Davenport W.G. (2011). Extractive Metallurgy of Copper (5th ed.). Oxford, UK: Elsevier. 2. Fernandez-Caliani, J.C., Rios, G., Martinez, J. & Jimenez, F.J. (2012). Occurrence and speciation of copper in slags obtained during the pyrometallurgical processing of chalcopyrite concentrates at the Huelva smelter (Spain). J. Min. Metall., Sect. B, 48(2), 161–171. DOI: 10.2298/jmmb111111027f. 3. Sarrafi, A., Rahmati, B., Hassani, H.R. & Shirazi, H.H.A. (2004). Recovery of copper from

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Comparison of Hexavalent Chromium Leaching Levels of Zeoliteand Slag-based Concretes

References [1] Baker P. G. & Bishop P. L. (1997). Prediction of metal leaching rates from solidified/stabilized wastes using the shrinking unreacted core leaching procedure. Journal of Hazardous Materials.52, 311-333. DOI: 10.1016/S0304-3894(96)01814-6. [2] Douglas E. & Brandstetr J. (1990). A preliminary study on the alkali activation of ground granulated blast-furnace slag. Cement and Concrete Research. 20 (5), 746-756. DOI: 10.1016/0008-8846(90)90008-L. [3] Salman M., Cizer Ö., Pontikes Y., Snellings R., Vandewalle L., Blanpain B. & Balen K

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Dissolution of lead matte and copper slag upon exposure to rhizosphere-like conditions

Aznalcóllar mine (SW Spain). Chemical Geology, 190(1), 339–353. [9] Ettler V. & Johan Z. (2014). 12 years of leaching of contaminants from Pb smelter slags: geochemical/mineralogical controls and slag recycling potential. Applied Geochemistry 40, 97–103. [10] Ettler V., Johan Z., Kříbek B., Šebek O., Michaljevič M. (2009). Mineralogy and environmental stability of slags from Tsumeb smelter, Namibia. Applied Geochemistry 24 (1), 1–15. [11] Ettler V., Komárková M., Jehlička J., Coufal P., Hradil D., Machovič V., Delorme F. (2004) . Leaching of lead

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Remediation of Acid Generating Colliery Spoil Using Steel Slag – Case Studies

References [1] CAMERON D.G., IDOINE N.E., BROWN T.J., PATTON M.A.G., MCGINN C., MANKELOW, Directory of Mines and Quarries, Ninth ed., British Geological Survey, Keyworth, UK, 2010. [2] DEFRA, Protecting our water, soil and air. A code of good agricultural practice for farmers, growers and land managers, Department for Environment, Food and Rural Affairs, London, United Kingdom, 2009. [3] Environment Agency, Steel Slag, 2011, http://www.environmentagency. gov.uk/business/topics/waste/114453.aspx (accessed April

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Impact Analysis of Airborn Pollution Due to Magnesium Slag Deposit and Climatic Changes Condition

References WHO Air quality and health, Fact sheet No. 313 (2008) Peck P. Desk-assessment study for the Environment and Security Initiative Project UNEP Regional Office for Europe & UNEP Division of Technology, Industry and Economics; 2004. Araújo LA. Manual de Siderurgia'1st Edn. São Paulo, Brasil;1997. Pietersen HS. Application of TEM to characterize fly ash- and slag cements. Heron. 1999;44(4). Minic D, Manasijevic D, Djokic J

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Performance Characterization of Bituminous Mixtures with Dolomite Sand Waste and BOF Steel Slag Aggregates

References [1] The European Slag Association: „EUROSLAG”, Legal status of slags. Position paper, Available: http://www.euroslag.com [Accessed: Aug 10, 2011]. [2] D. Xirouchakis, V. Manolakou. Properties of EAF Slag Produced in Greese: A Constructional Material for Sustainable Growth: .5thInternationa Conference Bituminous Mixtures and Pavements, pp. 287- 297, June 1-3, 2011, Thessaloniki, Greece. [3] U. Bagampadde, H. I. Al-Abdul Wahhab, S.A. Aiban. “Optimization of Steel Slag Aggregates for Bituminous

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