The effect of heat treatment duration of the properties of specimens prepared on the basis of composite composition HCBS in the Al2O3–SiO2–SiC system is studied. With a content of 10 and 30% SiC in specimens its fineness varies within the limits 3 – 200 μm. Amethod is proposed for evaluating the degree of SiC oxidation within composite material. Depending on specimen composition this index is within the limit 50 – 100%. Maximum values of σben and σco for SiC-containing specimens reach 80 and 390 MPa respectively.
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Yu. E. Pivinskii and P. V. Dyakin, “Research in the field of composite HCBS and refractory materials based on them in the Al2O3–SiO2–SiC system. Part 1,” Novye Ogneupory, No. 3, 17 – 27 (2018).
I. S. Kainarskii and É. V. Degtyareva, Carborundum Refractories [in Russian], Metallurgiya, Moscow (1963).
G. G. Gnesin, Silicon Carbide Mater4ials [in Russian], Metallurgiya, Moscow (1977).
V. A. Lavrinenko and Yu. G. Gogotsi, Corrosion of Structural Ceramics [in Russian], Metallurgiya, Moscow (1989).
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 14. Composition and some properties of ceramic concretes of composite composition in the Al2O3–SiO2–SiC–C system,” Novye Ogneupory, No. 2, 24 – 32 (2018).
Yu. E. Pivinskii and P. V. Dyakin, “Research in the field of preparing molded and unmolded refractories based on high-alumina HCBS. Part 7. Sintering and secondary mullite formation of material based on composite-composition HCBS during thermal heating and isothermal heating,” Refract. Indust. Ceram., 57(5), 536 – 544 (2017).
Yu. E. Pivinskii, P. V. Dyakin, and A. Yu. Kolobov, “ Research in the field of preparing molded and unmolded refractories based on high-alumina HCBS. Part 8. Effect of firing temperature on properties of materials based on mixed HCBS composition bauxite, quartz glass, and reactive alumina,” Refract. Indust. Ceram., 57(6), 637 – 644 (2017).
Yu. E. Pivinskii, P. V. Dyakin, and A. Yu. Kolobov, “Research in the field of preparing molded and unmolded refractories based on high-alumina HCBS. Part 9. Preparation and properties of mixed HCBS composition: fuzed bauxite-corundum, quartz glass, reactive alumina. Dilatometric study of materials based on them,” Refract. Indust. Ceram., 58(1), 103 – 107 (2017).
Yu. E. Pivinskii, P. V. Dyakin, A. M. Gorokhovskii, and L. V. Ostryakov, “Research in the field of preparing molded and unmolded refractories based on high-alumina HCBS. Part 10. Effect of firing temperature on properties of materials prepared based on mixed composition HCBS from fuzed bauxite-corundum, quartz glass, and reactive alumina, “Refract. Indust. Ceram., 58(2), 227 – 232 (2017).
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 12. Composite composition HCBS (bauxite electrocorundum, quartz glass) and some properties of materials based upon them,” Refract. Indust. Ceram., 58(5), 514 – 520 (2018).
Yu. E. Pivinskii, V. A. Perepelitsyn, P. V. Dyakin, A. Yu. Kolobov, D. S. Prokhorenkov, “Research in the field of preparing molded and unmolded refractories based on high-alumina HCBS. Part 13. Effect of firing temperature on phase composition, structure and some properties of materials based on composite composition HCBS: bauxite, corundum, quartz glass,” Novye Ogneupory, No. 12, 27 – 35 (2017).
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 11. Composite composition HCBS (fuzed corundum-bauxite, sintered bauxite, quartz glass) and some properties of materials based upon them,” Refract. Indust. Ceram., 58(4), 450 – 456 (2017).
V. S. Bakunov, V. L. Balkevich, A. S. Vlasov, et al., ceramics of Highly Refractory Oxides (D. N. Poluboyarinova and R. Ya. Popil’skii, editors),” [in Russian]. Metallurgiya, Moscow (1977).
V. S. Bakunov, A. V. Belyakov, E. S. Lukin, and U. Sh. Shayakhmetov, Oxide Ceramics: Sintering and Creep [in Russian], D. I. Mendeleev RKhTU, Moscow (2007).
V. L. Kaiser, Reaction at Contact Between SiO 2 and Al 2 O 3 a in Ceramics. Coll. 1 and 2. British and Dutch Ceramic Societies [Russian translation], Metallurgiya, Moscow (1967).
Yu. E. Pivinskii, E. M. Grishpun, and A. M. Gorokhovskii, “Engineering, manufacturing, and servicing of shaped and highly concentrated ceramic binding suspensions, Refract. Indust. Ceram., 56(3), 245 – 253)2 – 15).
Yu. E. Pivinskii, P. V. Dyakin, and A. Yu. Kolobov, “Research in the area of preparing materials based on fused quartz HCBS. Part 10. Some properties of cristobalite-containing materials,” Refract. Indust. Ceram., 57(3), 252 – 257 (2016).
Yu. E. Pivinskii and P. V. Dyakin, “Research in the area of preparing materials based on fuzed quartz HCBS. Part 6. Effect of firing temperature on material sintering and cristobalitization,” Refract. Indust. Ceram., 56(4), 366 – 373 (2015).
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Continuation. Part 1 of an article published in Novye Ogneupory, No. 3 (2018).
Translated from Novye Ogneupory, No. 5, pp. 22 – 27, May, 2018.
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Pivinskii, Y.E., Dyakin, P.V. Research in the Field of Composite Materials Based on HCBS and Refractory Materials Based on the System Al2O3–SiO2–SiC. Part 2. Refract Ind Ceram 59, 247–251 (2018). https://doi.org/10.1007/s11148-018-0215-3
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DOI: https://doi.org/10.1007/s11148-018-0215-3