Steklo i Keramika (Glass and Ceramics). Monthly scientific, technical and industrial journal

 

ISSN 0131-9582 (Online)

  • Continuous numbering: 1010
  • Pages: 29-34
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Heading: Science for ceramic production

The classification of grinding equipment and conditions affecting the process of mechanical processing of raw materials for the production of oxide ceramics is presented. Based on the analysis of grinding (dispersing) processes and mechanochemical activation of alumina, it is recommended to use mills with impact (pressure) - shear loading (drum, vibration, planetary, etc.). Optimal for achieving high values ??of specific surface area and degree of mechanochemical activation are mills with an average energy intensity of 3-10 kW / kg. Tab. 1, ill. 2, bibliography: 25 titles.
Cand. tech. Sci. V. Yu. Prokofiev ( This email address is being protected from spambots. You need JavaScript enabled to view it. ), Cand. tech. N.E. Gordin ( This email address is being protected from spambots. You need JavaScript enabled to view it. ); Research Institute of Thermodynamics and Kinetics of Chemical Processes, Ivanovo State University of Chemical Technology (Russia, Ivanovo)
Khodakov G.S.Physics of Grinding. Moscow: Nauka, 1972.307 p. Balaz P. Mechanochemistry in Nanoscience and Minerals Engineering. Berlin: Springer-Verlag Berlin Heidelberg, 2008.413 p. Avvakumov E., Senna M., Kosova N. Soft Mechanochemical Synthesis: a Basis for New Chemical Technologies. NY: Kluwer Academic Publishers, 2002.220 p. Boldyrev V.V., Mechanochemistry and mechanical activation of solid substances, Usp. 2006. T. 75. N 3.S. 203-216. Boldyrev V. K, Tk & aacute; & # 269; v & aacute; K. Mechanochemistry of solids: past, present, and prospects // J. Mater. Synth. Proc. 2000. V. 8. Nos. 3/4. P. 121-132. Heegn, H., Changes in the Properties of Solids under Mechanical Activation and Fine Grinding, Izv. Siberian Branch of the USSR Academy of Sciences. Ser. chem. sciences. 1988. N 2. Issue. 1. S. 3-9. Heinicke G. Tribochemistry. Berlin: Akademie-Verlag, 1984.496 p. Kryuchkov Yu.N. Equipment for fine grinding of ceramic materials (Review) // Glass and ceramics. 1995. N8. S. 14-19. Kryuchkov Yu. N. Equipment for fine crushing of ceramic materials (Review) // Glass and Ceram. 1995. V. 52. No 8.P. 210-215. Braslavets A.V., Denisov M.G., Eremin A.F. New laboratory grinding technology // Glass and ceramics. 2001. N2. S. 23-24. Braslavets A. K, Denisov MG, Eremin A. F. New laboratory grinding equipment // Glass and Ceram. 2001. V. 58. No. 1-2. P. 60-61. Makarov N.A., Sidorin V.A., Lukin E.S. Ceramic materials for grinding bodies // Glass and ceramics. 2004. N7. S. 18-22. Makarov NA, Sidorin VA, Lukin ES Ceramic materials for milling bodies (a review) // Glass and Ceram. 2004. V. 61. No. 7 - 8. P. 228 - 232. Suryanarayana C., Ivanov E., Boldyrev VV The science and technology of mechanical alloying // Mater. Sci. Eng. A. 2001.No. 304-306. P. 151-158. Murty BS, Ranganathan S. Novel materials synthesis by mechanical alloying / mixing // International Materials Review. 1998. V. 43. P. 101 - 143. Calka A., Wexler D. Mechanical milling assisted by electrical discharge // Nature. 2002. 419. P. 147 - 151. Butyagin P. Yu. Energy aspects of mechanochemistry // Izv. Siberian Branch of the USSR Academy of Sciences. Ser. chem. sciences. 1987. N 17. Issue. 5.S. 48-59. Boldyrev, V.V., Mechanochemical Methods for Activating Inorganic Substances, Zh. All-Union. chem. about-va them. D.I. Mendeleev. 1988. V. 33. N 4. P. 14 - 23. Boldyrev VV Mechanochemistry and mechanical activation of solid substances // Izv. Academy of Sciences of the USSR. Ser. chem. 1990. N 10. P. 2228 - 2248. Prokofiev V. Yu., Ilyin AP, Shirokov Yu. G. Mechanochemical phenomena in the dispersion of alumina in the presence of surfactant additives // Izv. universities. Ser. Chemistry and chem. technology. 1993. T. 36. 4. P. 68 - 72. Ilyin AP, Shirokov Yu. G., Prokofiev V. Yu. Mechanochemical activation of alumina // Izv. RAS. Inorganic materials. 1995. T. 31. N 7. P. 933 - 936. Ilyin AP, Prokofiev V. Yu. Physicochemical mechanics in the technology of catalysts and sorbents. Ivanovo: IGKhTU, 2004. 316 S. Prokofiev V. Yu. Methodological approach to the choice of optimal properties of molding masses for extrusion (review) // Glass and ceramics. 2011. N 1.P. 11 - 16. Prokof'ev V. Yu. Methodological approach to optimizing the properties of molding pastes for extrusion (Review) // Glass and Ceram. 2011. V. 68. No. 1 - 2. P. 11 - 16. Kolosov AS Some questions of modeling and estimation of energy efficiency of processes of crushing of solids // Izv. Siberian Branch of the USSR Academy of Sciences. Ser. chem. sciences. 1985. N5. Issue 2.S. 26-38. Heegn H., Ilgen S. Physikalische Stoffeigenschaften verschiedener Mineralien und Ergebnisse der Fienmahlung in einer Kugelwalzmuhle // Freib. Forsch. 1987. A700. P. 247 - 263. Ilyin AP, Prokofiev V. Yu., Sazonova TV, Kochetkov S. 77. Study of an absorber of fluorine compounds based on activated hydrargillite // Zh. app. chemistry. 1997. T. 70. Issue. 1. P. 100 - 104. Prokofiev V. Yu., Ilyin AP Regulation of the properties of molding masses based on technical alumina // Glass and ceramics. 2004. N 3.P. 16 - 19. Prokof'ev V. Yu., Il'in AP Controlling properties of molding mixtures based on technical alumina // Glass and Ceram. 2004. V. 61. No. 3 - 4. P. 81 - 84. Kunin AV, Prokofiev V. Yu., Ilyin A. 77. Synthesis of aluminum titanate using stabilizing additives // Glass and ceramics. 1999. N 4. S. 20 - 23. Kunin AV, Prokof'ev V. Yu., Il'in AP Synthesis of aluminum titanate using stabilizing additives // Glass and Ceram. 1999. V. 56. No. 3 - 4.P. 113-116.

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V. Yu. Prokof'ev and N. E. Gordina Processes of grinding and mechanochemical activation in technology of oxide ceramics (review). Steklo i keramika. 2012:85(2):29-34. (in Russ). UDK 666.3.022.2