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GRANITE-LIKE SINTERED GLASS-CERAMICS FROM HAZARDOUS INDUSTRIAL WASTES

Alexander Karamanov

First published: 2007DOI pendingView metrics

Abstract

The present work discusses the synthesize of sintered granite–like glass-ceramics obtained by vitrification of hazardous industrial wastes. The chemical resistance of parent wastes and glasses were classified by the toxic characteristics leaching procedure (TCLP), whereas the crystallization behaviour was evaluated by DTA and XRD. The thermal and mechanical properties of final glass-ceramics were also measured and discussed. The obtained glass-ceramics have attractive appearance, elevate chemical durability and mechanical properties, which considerably surpass the characteristics of natural stones and traditional tiling ceramics. The estimations of investment and production costs show that the new materials successfully may be used instead of expensive marbles and granites in the modern architecture.

Publication details

Title
GRANITE-LIKE SINTERED GLASS-CERAMICS FROM HAZARDOUS INDUSTRIAL WASTES
Authors
Alexander Karamanov
Proceedings
7th International Scientific Conference - SGEM2007
Publisher
SGEM Scientific GeoConference
Year
2007
Pages
Not available yet
SWS Citekey
Karamanov2007104
ISSN
1314-2704
ISBN
954-918181-2
Language
en
Publication type
Conference Paper
Keywords
References19
  1. Gutmann R., ”Thermal Technologies to Convert Solid Waste Residuals into Technical Glass Products”, Glastech. Ber., Glass Sci. Tech., 69 (9), 285-299, 1996

  2. Colombo P., Brusatin G., Bernardo E., et al., ”Inertization and Reuse of Waste Materials by Vitrification and Fabrication of Glass-Based Products”, Curr. Opin. Solid St., M 7 (3), 225-239, 2003

  3. Bingham P.A., Hand R.J., ”Vitrification of Toxic Wastes: a Brief Review”, Advances In Applied Ceramics, 105 (1), 21-31, 2006

  4. Rawlings R.D., Wu J.P., Boccaccini A.R., “Glass-Ceramics: Their Production from Wastes-a Review”, J. Materials Science 41 (3), 733-761, 2006

  5. Nakamura, S., U.S. Pat. No. 3 955 989, “Crystallized Glass Article Having A Surface Pattern” , 11 05, 1976

  6. Hőland W., Beall G., “Glass-Ceramics Technology”, The American Ceramics

  7. Society, Westerville, 2002

  8. Karamanov A., Gutzow I., et al. ,“Diopside Marble-Like Glass-Ceramics”, Glastech. Ber., Glass Sci. Tech., 67, [7], 202-208, 1994

  9. Karamanov, A., Gutzow, I. et al., “Synthesis Of Wall-Covering Glass-Ceramics From Waste Raw Material”, Glastech. Ber., Glass Sci. Tech., 67, [8], 227-231, 1994

  10. Gorobinskay V., Kravtcenchko I., Bossert J., Stablein, J., Proc. of XVIII th ICG, Section A7 (CD) , Am. Ceram. Soc, San Francisco, USA, 5-8 July 1998

  11. Karamanov A., Taglieri G., Pelino M., “Iron-Rich Sintered Glass-Ceramics from Industrial Wastes” , J. American Cer. Soc., 82 [11], 3012-3016, 1999

  12. Karamanov A., Tagliery G., Cantalini C., Pelino, M., “Glass-Ceramics Obtained from Industrial Wastes by Sinter-Crystallisation”, Proc. of II Congress "Valorisation and Recycling of Industrial Wastes", L’Aquila, Italy, 99-106, 5-8.7.1999

  13. Nicolescu M, Ursu D, ”Thermally Crystallized Glasses Based on Industrial Wastes”,Glass Sci. Technol., 73-C1, 378-382, 2000

  14. Ferreira E.B, Zanotto E.D, Scudeller L.A.M., ”Glass and Glass-Ceramic from Basic Oxygen Furnace (BOF) Slag”, Glass Sci. Technol. 75 (2), 75-86 , 2002

  15. Karamanov A., Pelino M., Hreglich A., “Sintered Glass-Ceramics from MSW- Incinerator Fly Ashes Part I :The Influence of the Heating Rate on the Sinter- Crystallisation”, J. European Cer. Soc., 23, 827-832, 2003

  16. Karamanov A., Pelino M., Ferraris M., Metecovitz I, “Sintered Glass-Ceramics from MSW-Incinerator Fly Ashes: Part II: The Influence of the Particle Size and Heat- Treatment on the Properties”, J. European Cer. Soc. 23, 1609-1615, 2003,

  17. Karamanov A., Aloisi M., Pelino M., “Vitrification Of Copper Flotation Waste”, J. Hazardous Mat., 140, 2007, 333-339

  18. Barbieri L, Karamanov A., at al., ”Microstructural, Chemical and Thermal Study of Glasses Containing Oxide-Based Wastes”, J. Non Crystalline Solids (in press)

  19. US Environmental Protection Agency, Toxicity Characteristic Leaching Procedure (TCLP), 40 CFR 268, Appendix I, US Federal Register.

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