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Processing and utilization of metallurgical slags

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Języki publikacji
EN
Abstrakty
EN
Metallurgy and foundry industry create a huge amount of slags that are by-products by production of pig iron, steel and cast iron. Slags are produced in a very large amount in pyrometallurgical processes, and are huge sources of waste if not properly recycled and utilized. With rapid growth of industrialization, the available land for land-filling of large quantity of metallurgical slags is reducing all over the world and disposal cost becomes increasingly higher. Metallurgical slags from different metallurgical processes are treated and utilized in different ways based on the different slag characteristics. The most economic and efficient option for reducing the metallurgical waste is through recycling, which is a significant contribution to saving natural resources and reducing CO2 emissions characteristic of slags and their treatment and utilization are given in the paper. Slags from pig iron and steel production are used most frequently in building industry. From experiments using blast furnace slag and granulated blast furnace slag as grave an water glass as binder follows that the best results – the best values of compression strength and tensile strength were reached by using of 18% of water glass as solidification activating agent. according to cubic compression strength, mixture from 50% blast furnace gravel, 50% granulated blast furnace slag and 18% water glass falls into C35/45 class of concretes. This concrete also fulfils strength requirements for road concrete, it even exceeds them considerably and therefore it could find an application in construction of road communications or in production of concrete slabs.
Słowa kluczowe
Rocznik
Strony
2--5
Opis fizyczny
Bibliogr. 15 poz., tab.
Twórcy
autor
  • Institute of metallurgy, faculty of metallurgy, technical university in košice, park komenského 14, košice, slovakia, +421 55 6022752
autor
  • Institute of metallurgy, faculty of metallurgy, technical university in košice, park komenského 14, košice, slovakia, +421 55 6022752
autor
  • Institute of metallurgy, faculty of metallurgy, technical university in košice, park komenského 14, košice, slovakia, +421 55 6022752
Bibliografia
  • 1. Hami S. 2005. Slag: product or waste – the present situation. EUROSLAG. Slags – Providing Solutions for Global Construction and other Markets, 4th European Slag Conference. Proceeding, Euroslag Publicatio. Oulu (Finland).
  • 2. Lewis D.W. 1982. Properties and Uses of Iron and Steel Slags. National Slag Association. Symposium on Slag National Institut for Transport and Road Research, South Africa.
  • 3. Motz J., Geisler J. 2001. Products of Steel Slag an Opportunity to Save Natural Resources. Waste Management 21.
  • 4. Pribulová A., Futáš P., Baricová D., Demeter, P. 2014. Waste management – metallurgical slag: waste or secondary material? Toyotarity. Management of technology. Alba Iulia.
  • 5. Reuter M., Xiao Y., Boin U. 2004. Recycling and environmental issues of metallurgical slags and salt fluxes. VII International Conference on Molten Slags Fluxes and Salts, The South African Institute of Mining and Metallurgy. Johannesburg.
  • 6. Gandhevar V. R., Bansod S. V., Borade A. B. 2011. Induction furnace – a review. International Journal of Engineering and Technology Vol.3.No.4.
  • 7. Rex M. 2013. The use of BF, converter and ladle slags in European agriculture-benefits or risks? Slag-Providing solutions for global construction and other markets. In: 4th European Slag Conference. Oulu (Finland).
  • 8. Rastovčan – Mioč A., Sofilič T., Mioč B. 2006. Study of Potential Electric Arc Furnace Slag Application. Proceedings Book of 7th International Foundrymen Conference. Opatija.
  • 9. Merke T. 2007. Steel Slag for Railway Tracks. 5th European Slag Conference. Luxemboug.
  • 10. Takahashi T., Yabuta K. 2002. Applications for Iron and Steelmaking Slag. NKK Technical Review. No. 87.
  • 11. Kujala K. 2005. Use of industrial co-products in civil engineering in Slag-Providing solutions for global construction and other markets. 4th European Slag Conference. Oulu (Finland).
  • 12. Bőmer S., et all. 2007. Aggregate case study. Final Report referring to contract n° 150787-2007 F1SC-AT. Vienna.
  • 13. Yildirim I.Z., Prezzi M. 2011. Chemical, Mineralogical, and Morphological Properties of Steel Slag. Advances in Civil Engineering. Vol. 10.
  • 14. Baricová D., Pribulová A., Demeter P., Buľko B., Rosová A. 2012. Utilizing of the metallurgical slag for production of cementless concrete mixtures. Metalurgija. Vol. 51. No. 4.
  • 15. Baricová D., Pribulová A., Demeter P., Buľko B., Futáš P. 2011. Analysis of metallurgical slags utilization in the road engineering. SGEM 2011 11th International Multidisciplinary Scientific GeoConference. Bulgaria. Albena.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-46797c7b-b37f-46b5-ad7c-306bb8b55c76
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