We have investigated the laws of refinement and modification of wollastonite particles in the process of mechanochemical treatment with the participation of nitrogen- and carbon-containing organic compounds. The features of formation of capsulizing layers on the surface of refined particles and their structure and morphology depending on the type of modifier have been determined. It has been established that mechanochemical treatment of wollastonite particles leads to an increase in their activity and the formation of polymer films of various configurations with the participation of carbon compounds.
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V. A. Tyul′nin, V. R. Tkach, V. I. Éirikh, and N. P. Starodubtsev, Wollastonite (Unique Multipurpose-Purpose Mineral Raw Material) [in Russian], Ruda i Metally, Moscow (2003).
Yun Lei, Quanxiang Yan, Shupeng Liu, and Jizu Yuan, Papermaking of mineral fi ber composites, J. Sci. Ind. Res., 69, No. 3, 215–220 (2010).
Sara M. Robinson, Martin F. Sheridan, and Anthony G. Ferradino, The Advantages of Wollastonite, a Non-Traditional Filler, in Fluorohydrocarbon (FKM) Elastomers. Presented at a meeting of the Rubber Division, American Chemical Society Savannah, Georgia, April 29 – May 1, 2002.
V. S. Goshkov, V. G. Savel′ev, and N. F. Fedorov, Physical Chemistry of Silicates and Other High-Melting Compounds [in Russian], Vysshaya Shkola, Moscow (1988).
G. Kozlov and G. Zaikov, Fractal and Local Order in Polymeric Materials, Nova Science Publishers, New York (2001).
N. N. Mofa, T. A. Shabanova, T. A. Ketegenov, O. V. Chervyakova, and Z. A. Mansurov, Quartz particles electronmicroscopic investigations modified by mechanochemical processing, Eurasion Chem. Tech. J., No 5, 297–303 (2003).
N. N. Mofa, T. A. Ketegenov, T. A. Shabanova, and Z. A. Mansurov, Mechanochemical synthesis of nanocomposition systems: quartz nucleus, carbon-containing coating, III Int. Conf. "Fundamental Bases of Mechanochemical Technolodies," May 27–30, 2009, Novosibirsk, Russia.
V. I. Molchanov, O. G. Selezneva, and E. N. Zhirnov, Activation of Minerals by Grinding [in Russian], Nedra, Moscow (1988).
G. Heinicke, Tribochemistry [Russian Translation], Mir, Moscow (1987).
V. V. Boldyrev, E. G. Avvakumov, A. A. Okhlopkova, S. N. Popov, and P. N. Petrova, Fundamental Principles of Mechanical Activation, Mechanical Synthesis, and Mechanochemical Technologies [in Russian], Izd. SO RAN, Novosibirsk (2009).
Z. A. Mansurov and N. N. Mofa, Mechanochemical activation and reactivity of quartz-based SHS systems, Goren. Plazmochem., 9 (2), 100–113 (2011).
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Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 87, No. 3, pp. 669–676, May–June, 2014.
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Mansurov, Z.A., Mofa, N.N., Shabanova, T.A. et al. Mechanochemical Treatment, Features of the Structure, Properties, and Reactivity of SHS Systems Based on Natural Materials. Part 2. Mechanochemical Synthesis of Finely Dispersed Nanostructured Wollastonite-Based Systems. J Eng Phys Thermophy 87, 691–698 (2014). https://doi.org/10.1007/s10891-014-1061-x
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DOI: https://doi.org/10.1007/s10891-014-1061-x