The development of effective ceramic lining materials is an important problem of industry. Materials with aluminum phosphate binder can be considered as new for use in hydrocyclones. The present work is devoted to research on the content of the binder and its modification as well as the calcination temperature on the properties of the final products. Special attention is focused on the basic properties for using ceramic materials as lining: porosity, water absorption, and density. Several composite materials with enhanced properties due to reinforcement with coarse-grained silicon carbide have been obtained.
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References
R. N. Shestov, Hydrocyclones [in Russian], Mashinostroenie, Leningrad (1967).
J. Foster, “Ceramic applications for wear protection of pipelines and cyclones,” Key Eng. Mater., 122 – 124, 247 – 278 (1996).
L. Zhang, P. Huo, Y. Huang, et al., “Study on mechanical property of Al2O3-based composite ceramic liner of the heavy-medium cyclone,” Adv. Mater. Res., 295 – 297, 581 – 584 (2011).
R. D’Elia, G. Bernhart, J. Hijlkema, and T. Cutard, “Experimental analysis of SiC-based refractory concrete in hybrid rocket nozzles,” Acta Astronautica, 123, 168 – 177 (2016).
R. D’Elia, G. Bernhart, T. Cutard, et al., “Preliminary tests of silicon carbide-based concretes for hybrid rocket nozzles in a solar furnace,” Acta Astronautica, 99, 242 – 251 (2014).
V. A. Kamenskikh, I. D. Kashcheev, and A. A. Gulyaev, “Silicon carbide concrete, RF Patent 2257361,” applicant and patent holder Center for Energy Conserving Technologies JSC (RU), No. 2004123470/03, Byull. Izobr. Polez. Nodeli, No. 21 (2005), application date July 30, 2004; publ. July 27, 2005.
P. P. Budnikov, Refractory Concretes on Phosphate Binders [in Russian], Metallurgiya, Moscow (1971).
I. S. Kainarskii, Carborundum Refractories. Properties of Silicon Carbide. Technology, Properties, and Applications of Carborundum Refractories [in Russian], State Scientific and Technical Publishers of Literature on Ferrous and Non-ferrous Metallurgy (1963).
I. I. Nemets, Y. N. Trepalina, and E. A. Doroganov, “Corundum concretes based on modified phosphate-containing binders,” Refr. Industr. Ceram., 49(3), 205 – 208 (2008).
R. A. Shishkin, “Water-glass-based composite materials – investigation into their thermal conductivity,” J. Ceram. Sci. Technol., 3(6), 231 – 236 (2015).
R. A. Shishkin, A. A. Elagin, N. A. Erkhova, and A. R. Beketov, “Water-glass-based thermal paste for high-temperature applications,” J. Ceram. Sci. Technol., 3(5), 199 – 202 (2014).
I. V. Antsiferova, V. B. Kulmeteva, and Y. A. Biryukov, “Surfactant effects in the mechanical activation of ultrafine alumina powders made by pneumo-circulation grinding,” Refr. Industr. Ceram., 50(3), 227 – 230 (2009).
N. F. Kosenko, N. V. Filatova, and T. A. Fukina, “Thermal transformations of an aluminoborophosphate binder,” Inorg. Mater., 40(10), 1122 – 1126 (2004).
This work was supported by the state assignment No. AAAA-A19-119110190048-7.
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Translated from Steklo i Keramika, No. 2, pp. 24 – 29, February, 2020.
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Shishkin, R.A., Yuferov, Y.V. Technology for Producing Ceramic Materials for Hydrocyclone Linings. Glass Ceram 77, 57–61 (2020). https://doi.org/10.1007/s10717-020-00237-0
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DOI: https://doi.org/10.1007/s10717-020-00237-0