The important role of the volume concentration factor for HCBS in final material production and properties is accentuated. Taking account of experimental data and 30 years of experience of developing and improving quartz ceramics proposals are formulated for improving existing manufacturing technology for quartz ceramic rocket cones. The efficiency of using quartz ceramic and quartz sand suspensions as a components of high-alumina HCBS and materials based on them is demonstrated. Using composite HCBS of this composition multi-tonnage manufacture of molded and unmolded refractories is accomplished.
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Yu. E. Pivinskii, “Nanodispersed silica and some aspects of nanotechnology in the field of silicate materials science. Part 3,” Refract. Indust. Ceram., 49(1), 38 – 49 (2008).
Yu. E. Pivinskii, “Highly concentrated ceramic bonding suspensions and the influence of concentration factory,” Refractories, 28(9/10), 488 – 493 (1978).
R. Manivannan, A. Kumar, and Ch. Subrahmayam, “Aqueous gel casting of fused silica binder,” J. Am. Ceram. Soc., 96(8), 2432 – 2436 (2013).
Yu. E. Pivinskii and P. V. Dyakin, “Research in the area of preparing materials based on fuzed quartz HCBS. Part 5. Effect of sintering on material, porosity and strength,” Refract. Indust. Ceram., 56(3), 296 – 303 (2015).
Yu. E. Pivinskii and P. V. Dyakin, “Research in the area of preparing materials based on fuzed quartz HCBS. Part 7. Study of centrifugally molded refractory sintering and cristobalitization,” Refract. Indust. Ceram., 46(5), 476 – 482 (2015).
Yu. E. Pivinskii, P. V. Dyakin, and L. V. Ostryakov, “Research in the field of preparing molded and unmolded refractories based on high-alumina HCBS. Part 5. Effect of firing temperature on properties of materials prepared from composite HCBS with addition of refractory clay,” Refract. Indust. Ceram., 57(2), 180 – 184 (2016).
Yu. E. Pivinskii, P. V. Dyakin, and V. A. Perepelitsyn, “Research in the field of preparing molded and unmolded refractories based on high-alumina HCBS. Part 1. High-alumina bauxite as a basic raw material component,” Refract. Indust. Ceram., 56(4), 344 – 350 (2015).
D. A. Dobrodon and Yu. E. Pivinskii, “Fabrication and properties of binders for high-alumina suspensions. HCBS based on bauxite,” Refract. Indust. Ceram., 41(5), 204 – 210 (2000).
Yu. E. Pivinskii and D. A. Dobrodon, “Preparation and properties of high-alumina binder suspensions in the bauxite-quartz glass system,” Novye Ogneupory, No. 5, 19 – 26 (2002).
Yu. E. Pivinskii and V. Yu. Belousova, “Materials based on highly concentrated ceramic binding suspensions (HCBS). Corundum and corundum-mullite ceramic castables based on plasticized HCBS of bauxite,” Refract. Indust. Ceram., 40(9/10), 391 – 395 (1999).
Yu. E. Pivinskii, E. A. Doroganov, and D. A. Dobrodon, “Materials using high–alumina bonding slurries, properties of blended mullite — fine–ground fused silica binders,” Refract. Indust. Ceram., 38(11/12), 409 – 413 (1997).
Yu. E. Pivinskii, “Nanodispersed silica and same aspects nanotechnologies in the field of silicate science. P. 2,” Refract. Indust. Ceram., 48(6), 435 – 443 (2007).
Yu. E. Pivinskii and P. V. Dyakin, “Preparation and properties of corundum HCBS and ceramic concretes. Part 1. Mixed HCBS in the system electrocorundum — very fine quartz glass,” Refract. Indust. Ceram., 51(1), 25 – 31 (2010).
Yu. E. Pivinskii, P. V. Dyakin, A. M. Dorokhovskii, and L. V. Otryakov, “Research in the field of preparing molded and unmolded refractories based on high-alumina HCBS. Part 10. Effect of firing temperature om properties of materials prepared based on mixed composition HCBS: fuzed bauxite-corundum, quartz glass, and reactive alumina,” Novye Ogneupory, No. 4, 37 – 43 (2017).
A. P. Luz, M. A. J. Braulio, and V. C. Pandolfelli, Refractory Castable Engineering, Goller-Verlag GmbH, Baden-Baden, Germany (2015).
Yu. E. Pivinskii, V. A. Bevz, and P. L. Mityakin, “Fundamental principles relating to the production of high-concentration suspensions of quartz sand,” Refractories, 20(3/4), 187 – 180 (1975).
Yu. E. Pivinskii. “Rheological and binding properties of aqueous suspensions of quartz sand,” Refractories, No. 5/6, 314 – 319 (1980).
V. Petrov, House of Sand, Lipetskaya Gazetta, 06.05.2012, p. 1, 2; http://www.Lpgzt.ru/article.
Yu. E. Pivinskii (main editor column), Stroitel’naya Tekhnologiya. http://www.mirmonolita.Ru/hief_editor/999999/315/html 2012.
Yu. E. Pivinskii and Pavel V. Dyakin, “Efficiency of adding very fine silica in high-alumina and corundum ceramic technology. Part 1,” Refract. Indust. Ceram., 50(1), 43 – 48 (2009).
Yu. E. Pivinskii and Pavel V. Dyakin, “Efficiency of adding very fine silica in high-alumina and corundum ceramic technology. Part 2,” Refract. Indust. Ceram., 50(2), 121 – 126 (2009).
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1Conclusion. Part 1 published in Novye Ogneupory No. 3 (2017), part 2 in No. 5 (2017).
Translated from Novye Ogneupory, No. 7, pp. 12 – 19, July, 2017.
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Pivinskii, Y.E. Half-Century Epoch of Domestic Quartz Ceramic Development. Part 31. Refract Ind Ceram 58, 507–513 (2018). https://doi.org/10.1007/s11148-018-0134-3
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DOI: https://doi.org/10.1007/s11148-018-0134-3