It is noted that the reinforcing components is distributed quite uniformly within concrete. Adhesion with binder is strong. Under action of high temperature there is active conversion of raw material fibers into corundum with an increase in volume. The material created surpasses unreinforced concrete with respect to strength properties and thermal shock resistance, and is distinguished by good volume constancy during operation.
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V. N. Sokov and V. V. Sokov, “Fibrous nanocorundum products for use in a high temperature gas stream,” Refract. Indust. Ceram., 53(6), 379 – 383 (2013).
V. N. Sokov and V. V. Sokov, “Study of the thermophysical properties of a fibrous nanocorundum?based material with a protective coating in a high temperature gas flow,” Refract. Indust. Ceram., 53(6), 357 – 359 (2013).
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1Parts 1 – 4 of the article published in Novye Ogneupory Nos. 5 – 8 (2014), Parts 5 – 7 in Nos. 1 – 3 (2015).
Translated from Novye Ogneupory, No. 4, pp. 44 – 45, April 2015.
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Sokov, V.N., Sokova, S.D. & Sokov, V.V. Heat-Resistant Corundum Concrete Reinforced with Aluminum Oxide Fibers Synthesized Within a Matrix During Firing.Part 8. Petrographic and X-Radiographic Study of Reinforced Refractory Concrete1 . Refract Ind Ceram 56, 142–143 (2015). https://doi.org/10.1007/s11148-015-9800-x
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DOI: https://doi.org/10.1007/s11148-015-9800-x