The change in specific electrical resistance in four-dimensional reinforced carbon-carbon composite materials with a different density level, and also the effect of processing parameters on the physical interaction factor at the carbon matrix–carbon fiber interface, are studied. Ranking of factors governing the level of material surface electrical resistance is established. Physicomechanical properties of carbon–carbon composites with a different level of surface electrical resistance are determined.
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V. G. Nagornyi, A. S. Kotosonov, V. S. Ostrovskii, et al., (V. P. Sosedov, editor), Properties of Structural Materials Based on Graphite: Handbook [in Russian], Metallurgiya, Moscow (1975).
S. V. Shulepov, Physics of Carbon Materials [in Russian], Metallurgiya, Chelyabinsk Section, Chelyabinsk (1990).
V. I. Kostikov, Technology for manufacturing objects of composite materials based on carbon,” in: Technology for Producing Objects and Integral Structures of Composite Materials in Engineering [in Russian], Gotika, Moscow (2003).
L. L. Razumov, S. K. Klyuev, and A. B. Komarov, “Study of the properties of composite carbon-carbon materials heat treated at elevated temperature,” Tsvetnye Metally, No. 10, 67 – 70 (1987).
V. A. Kolomiets, “Simulation of technology for producing MPG type graphites based on shale coke in OAO Novocherkassk Electrode Plant,” Author’s Abstr. Diss. Cand. Techn. Sci., Moscow (2003).
E. Fitzer, R. Diffenbord, I. Kanin, et al., (E. Fitzer, editor), Carbon Fibers and Carbon Composites [Russian translation]. Mir, Moscow (1988).
I. Golecki, L. Xue, R. Leung, et al., “Properties of high thermal conductivity carbon-carbon composites for thermal management applications,” High temperature electronic materials, devices and sensors conference, 22 – 27 Feb. 1998, San Diego, CA, USA.
M. Yu. Bamborin, D. V. Yartsev, and S. A. Kolesnikov, “Effect of high-temperature treatment on x-ray structural properties and thermal conductivity of carbon-carbon composite materials,” Novye Ogneupory, No. 8, 27 – 32 (2013).
Yu. S. Eliseev, V. V. Krymov, S. A. Kolesnikov, et al., Nonmetallic Composite Materials in Structural Elements and Production of Aviation Gas Turbine Engines: Higher Education Textbook [in Russian], N. E. Bauman MGTU, Moscow (2007).
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Translated from Novye Ogneupory, No. 2, pp. 22 – 28, February 2014.
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Bamborin, M.Y., Vorontsov, V.A. & Kolesnikov, S.A. Study of Physical Interaction Formation at the Boundary of Carbon Matrix – Carbon Fiber Structural Phases by Electrophysical Methods in Carbon-Carbon Composite Materials with a Different Density Level. Refract Ind Ceram 55, 52–57 (2014). https://doi.org/10.1007/s11148-014-9658-3
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DOI: https://doi.org/10.1007/s11148-014-9658-3