Pore-free cordierite glass-ceramic was synthesized. The crystallization and sintering processes were studied. Certain properties of the cordierite glass-ceramic fabricated from magnesium-aluminum-silicate glass were determined. The best properties were exhibited by glass-ceramic material obtained with heat-treatment at first-stage temperature T1 = 850°C and soaking time 𝜏1 = 3 h and second-stage temperature in the range T2 = 115 – 1350°C and soaking time 𝜏2 = 1 – 5 h.
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References
E. I. Suzdaltsev, “Ceramic radiolucent materials: yesterday, today, tomorrow,” Novye Ogneupory, No. 10, 5 – 18 (2014).
M. S. Heydari, J. Ghezavati, M. Abbasgholipour, and B. M. Alasti, “Various types of ceramics used in random: A review,” Scientia Iranica, 24(3), 1136 – 1147 (2017).
S. E. Prozorova, Development of Processes for the Preparation and Formation of the Structure and Properties of Highly Porous Permeable Materials Based on Oxide Natural Compounds, Author’s Abstract of Doctoral’s Thesis [in Russian], Perm (2005).
D. V. Grashchenkov, S. S. Solntsev, N. E. Uvarova, and A. S. Naumova, “Synthesis of high-temperature glass-ceramic matrices of composite materials,” in: Aviation Technologies: Scientific and Technical Symposium [in Russian], VIAM, Moscow (2008), No. 4, pp. 3 – 6.
N. T. Andrianov, S. R. Abdel-gavad, and N. V. Zenkova, “Synthesis and sintering of cordierite sol-gel powders based on various magnesium salts,” Steklo Keram., No. 12, 19 – 22 (2006); N. T. Andrianov, S. R. Abdel-gavad, and N. V. Zenkova, “Synthesis and sintering of cordierite sol-gel powders based on different magnesium salts,” Glass Ceram., 63(11 – 12), 415 – 418 (2006).
L. A. Alekseeva and R. P. Kelina, “Synthesis of sitalls with a complex of dielectric, thermal, and mechanical properties in alkali-free magnesium-aluminum silicate system,” in: Abstracts of Reports at the 18th Scientific and Technical Conference on Constructs and Technologies for Manufacture of Products from Non-Metallic Materials, Obninsk, October 23 – 25, 2007 [in Russian], Obninsk (2007), p. 129.
E. I. Suzdaltsev, “A new direction in the synthesis of highly heat-resistant radio-transparent glass-crystalline materials,” Ing.-Fiz. Zh., 74(6), 121 – 130 (2001).
L. M. Sulimenko, General Technology of Silicates [in Russian], INFRA-M, Moscow (2012).
N. M. Pavlushkina (ed.), Chemical Technology of Glass and Glass Materials [in Russian], Stroiizdat, Moscow (1983).
I. Y. Guzman (ed.), Chemical Technology of Ceramics [in Russian], Stroimaterialy RIF LLC, Moscow (2012).
E. I. Suzdaltsev and D. V. Kharitonov, “Investigation of the mechanism of sintering and crystallization of glass ceramics with lithium-aluminum-silicate composition,” Ogneup. Tekh. Keram., No. 12, 16 – 21 (2003).
G. M. Tomilov and N. V. Solomin, “Mechanism of compaction during sintering of glassy silicon dioxide,” Neorg. Mater., 11(1), 125 – 129 (1975).
V. G. Gorshkov, V. G. Savelyev, and A. V. Abakumov, Handbook of Binders, Ceramics and Glass-Ceramic Materials: Structure and Properties [in Russian], Stroiizdat, Moscow (1994).
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Translated from Steklo i Keramika, No. 9, pp. 17 – 23, September, 2019.
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Vandrai, S.N., Zaichuk, T.V., Ustinova, Y.S. et al. Cordierite Glass-Ceramic for Radioengineering Articles. Glass Ceram 76, 334–339 (2020). https://doi.org/10.1007/s10717-020-00195-7
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DOI: https://doi.org/10.1007/s10717-020-00195-7