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The paper describes the consequential advantages of the use of inorganic binders, particularly soluble sodium silicate, in the aspect of the environmental protection. Nanostructure of the soluble sodium silicate as a silicate colloid is described. Research of the structure of the soluble sodium silicate is executed with the use of the PCS method (Photon Correlation Spectroscopy). Characteristic parameters of the nanostructure of the soluble sodium silicate and the method of the estimation of the quantitative structure of the colloid are introduced. It has been proved that the nanostructure of the soluble sodium silicate has an essential influence on its proprieties as binders of the moulding sands. Mechanical characteristic of the moulding sands executed with this binder are dependent on the kind of the nanostructural characteristic of the soluble sodium silicate.
Czasopismo
Rocznik
Tom
Strony
3--8
Opis fizyczny
Bibliogr. 24 poz., rys.
Twórcy
autor
- Foundry Research Institute, Kraków
Bibliografia
- 1. Baliński A. 2010. Advanced oxidation and adsorption modyfication of dust waste from standard moulding sands. “Archives of Foundry Engineering”, vol. 10, issue 2, p. 5–8.
- 2. Baliński A., Wisła-Walsh E. 2008. Fly ash from hard coal combustion as a ceramic base material of moulding sands. “Polish Journal of Environmental Studies”, vol. 14, no. 3A, p. 44–48.
- 3. Baliński A. 2010. Odpadowe pyły formierskie modyfi kowane polielektrolitami. „Archives of Foundry Engineering”, vol. 10, no 2, p. 9–13.
- 4. Baliński A. 2000. Wybrane zagadnienia technologii mas formierskich ze spoiwami nieorganicznymi. Struktura uwodnionego krzemianu sodu i jej wpływ na wiązanie mas formierskich. Kraków, s. 58–81.
- 5. Baliński A., Janusz W. 2002. Changes of potential ζ in a system of „hydrated sodium silicate – ethylene glycol. “Advances In Manufacturing Science and Technology”, vol. 26, nr 4, s. 21–25
- 6. Baliński A., Janusz W. 2004. Potencjał ζ uwodnionego krzemianu sodu. „Archives of Foundry”, vol. 4, no 11, p. 29–33.
- 7. Baliński A., Wilkosz B. 1998. Examinations of the structure of sodium silicate and silica sols by the technique of photon correlation spectroscopy. “Acta Metallurgica Slovaca”, no. 2, p. 113–117.
- 8. Baliński A., Lewandowski J.L., Wilkosz B.1999. Influence of the structure of water glass and modified silicate binders on the strenght proprieties of moulding sands. “Acta Metallurgica Slovaca”, no 2, p. 70–74.
- 9. Baliński A., Stechman M., Różycka D. 2003. Influence of modifi cation of the soluble sodium silicate with morphoactive agents on the mechanical properties of the moulding sands in temperatures to 9000C. “Materials Engineering”, vol. X, no 3, p. 271–275.
- 10. Baliński A. 2004. Determination of size and size distribution of particles in hydrated sodium silicate and in silicate sols by photon correlation spectroscopy. “Int. Journal of Cast Metals Research”, vol. 17, No. 2, p. 1–6.
- 11. Cannon F.S., Voight R.C., Furness J.C. 2002. Non-Incineration Treatment to Reduce Benzene and VOC Emissions from Greensand System, Final Report U.S. Department of Energy, DE-FC 0799 ID13719.
- 12. Glowacki C.R., Crandell G.R.,.Cannon F.S, Clobes J.K., Voight R.C., Furness J.C., McComb B.AQ., Knight S.M. 2003. Emission Studies At a Test Foundry using an Advanced Oxidation-Clear Water System. “AFS Transactions”, vol. 111, p. 579–598.
- 13. Izdebska-Szanda I., Baliński A. 2011. New generation of ecological silicate binders. “Engineering Procedia”. Published by Elsevier Ltd., vol. 10, p. 887–893.
- 14. James R.O., Parks G.A. 1982. Characterization of aqueous colloids by their electrical double-layer and intrinsic surface chemical proprieties. “Surface and Colloid Sci.”, vol. 12, p. 119–129.
- 15. Jankowski W., Żółkiewicz Z. 2003. A method to evaluate the permeability and strength of ceramic protective coatings applied on lost foam patterns. “Archives of Metalurgy”, vol. 48, no 3, p. 277–283.
- 16. McKinley M.D., Jefcoat I.A., Hertz N.J., Frederic C. 1993. Air Emissions from Foundries. A Current Survey of Literature, Suppliers and Foundrymen. “AFS Transactions”,vol. 101, p. 979–990.
- 17. Miller N.P., Berg J.C., O’Brien R.W. 1992. The electroforetic mobility of porous aggregate. “J. Colloidal Interface Sci.”, no 153, p. 237–241.
- 18. Parks G.A. 1965. The izoelectric point of solids oxides. “Chem.Rev.”, no 65, p. 177–181.
- 19. Pielichowski J., Sobczak J.J., Żółkiewicz Z., Hebda E., Karwiński A. 2011. Analiza termiczna polistyrenowego modelu odlewniczego. „Transactions of the Foundry Research Institute”, vol. L, no 1. p. 15–22.
- 20. Pirowski Z. 2011. Aplication of Nickiel Superalloys On Castings For Conventional Energy Equimpment Items. “TEKA”, vol. XIC, p. 246–255.
- 21. Pirowski Z., Gościanski M. 2009. Construction and technology of production of casted shares for rotating and fi rld plougs. “TEKA , vol. IX, p. 231–239.
- 22. Pytel A., Stefański Z. 2011. An Inovattive And Environmentally Safe Method To Manufacture High-Quality Iron Castings For Possible Use As elements Of Agriculture Machines. “TEKA” , vol. XIC, p. 256–263.
- 23. Svenson J.I., Ohman L-O. 1986. Polysilicate equilibrium in concentrated solution of sodium silicate. “J. Chem. Soc.”, vol. 82, p. 3636–3672.
- 24. Żółkiewicz Z., Żółkiewicz M. 2010. Characteristic properties of materials for evaporative patterns. “Archives of Foundry Engineering”, vol. 10, special issue, p. 289–292.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPS6-0001-0061