Systems. Methods. Technologies 3 (39) 2018

Systems Methods Technologies. A.S. Ustinov et al. Development and implementation … 2018 № 3 (39) p. 41-48 48 15. Gostev V. A., Pitukhin E.A., UstinovA.S., Shelestov A.S. Thermal Insulation Properties Research of the Composite Materi- al “Water Glass – Graphite Microparticles” // IOP Conference series: Materials science and engineering. 2016 1757-899X 123 012018 doi:10.1088/1757-899X/123/1/012018. 16. Ustinov A., Eugene Pitukhin E., Pitukhin A. Research of Thermal Stability and Fire-Resistance Properties of the Compo- site Material “Water Glass-Graphite Microparticles” // Key Engi- neering Materials. Submitted: 2016. Vol. 744. P. 27-31 doi:10.4028/ www.scientific.net / KEM. 744. 27. 17. Устинов А.С., Питухин Е.А. Исследование композит- ного материала «жидкое стекло–микрочастицы графита» методом термогравиметрии // Научно-технический вестник информационных технологий, механики и оптики. 2017. Т. 17, № 5. C. 826–833. 18. Исаченко В.П. Теплопередача / В.П. Исаченко, В.А. Осипова, А.С Сукомел М.: Энергия, 1975. 488 с. 19. ГОСТ 12.1.005-88. Система стандартов безопасности труда (ССБТ). Общие санитарно-гигиенические требования к воздуху рабочей зоны (с Изменением N 1) М.: Стандар- тинформ, 2008. 20. ISO 834–12:2012 Fire resistance tests. Elements of build- ing construction. Part 12: Specific requirements for separating elements evaluated on less than full scale furnaces. 21. Химическая энциклопедия: В 5 т. / гл. ред. И.Л. Кнунянц, Н.С. Зефиров. М.: Советская энциклопедия. 1998. Т. 4. 300 c. References 1. Samarskij A.A., Vabishchevich P.N. Computational heat transfer. M.: URSS, 2003. 782 p. 2. Elizarova T.G., Ivanov A.V. Regularized equations for nu- merical simulation of flows in the two-layer shallow water ap- proximation // Computational Mathematics and Mathematical Physics. 2018. T. 58, № 5. P. 741-761. 3. Elizarova T.G., Milyukova O.Yu. Numerical simulation of viscous incompressible fluid flow in a cubic cavity // Computa- tional Mathematics and Mathematical Physics. 2003. T.43, № 3. P. 453-466. 4. Eremina N.V. Flame retardant compositions based on liq- uid glass and mechanically activated oxides of aluminum and magnesium: kand. dis. … tekhn. nauk. Tomsk, 2007. 156 p. 5. Volkova V.K. Thermophysical properties of composite ma- terials with polymer matrix and solid solutions. M.: Izd-vo Nauka i obrazovanie, 2011. 101 p. 6. Romadenkina S.B. Physico-chemical bases of functional materials from oil shale: kand. dis. … him. nauk. Saratov, 2004. 170 p. 7. Gluhova O.E., Kolesnikova A.S., Slepchenkov M.M., Sa- vost'yanov G.V., Shmygin D.S. Promising composite material based on nanotubes and graphene for emission electronics // Na- notekhnologii: razrabotka, primenenie - XXI vek. 2015. T. 7, № 3. P. 35-41. 8. Stepashkina A.S., Cobkallo E.S., Aleshin A.N. Modeling of electrical conductivity of composite materials based on polypro- pylene and carbon black // The News of higher educational insti- tutions. Technology of Light Industry. 2014. T. 25, № 3. P. 51-54. 9. Maluk C., Terrasi G.P., Bisbya L., Stutz A. Erich Hugi Fire resistance tests on thin CFRP prestressed concrete slabs // Con- struction and Building Materials. 101. Part 1. 2015. P. 558-571. 10. Yue W.W., Tam W.C., Chow W.K. Assessment of radia- tive heat transfer characteristics of a combustion mixture in a three-dimensional enclosure using RAD-NETT (with application to a fire resistance test furnace) // International Journal of Heat and Mass Transfer.68. 2014. P. 383-390. 11. Schmid J., Klippel M., Just A., Frangi A. Review and analysis of fire resistance tests of timber members in bending, tension and compression with respect to the Reduced. Cross- Section Method // Fire Safety Journal. 2014. Vol. 68. P. 81-99. 12. Das A., Kasaliwal G.R., René Jurk R. Composites based on graphene nanoplatelets, expanded graphite, carbon nanotubes and their combination: A comparative study // Composites Science and Technology, 2012. Vol.72, Is. 16. 2012. P. 1961-1967. 13. Barreto C., Proppe J., Fredriksen S., Hansen E., Rodney W. Rychwalski Graphite nanoplatelet/pyromellitic dianhydride melt modified PPC composites: Preparation and characterization // Polymer. 2013. Vol. 54, Is. 14. P. 3574-3585. 14. Wang B., JiaoY., Gu A., Liang G., Li Y. Dielectric properties and mechanism of composites by superposing expanded gra- phite/cyanate ester layer with carbon nanotube/cyanate ester layer // Composites Science and Technology. 2014. Vol. 91. P. 8-15. 15. Gostev V. A., Pitukhin E.A., UstinovA.S., Shelestov A.S. Thermal Insulation Properties Research of the Composite Materi- al “Water Glass - Graphite Microparticles” // IOP Conference series: Materials science and engineering. 2016 1757-899X 123 012018 doi:10.1088/1757-899X/123/1/012018. 16. Ustinov A., Pitukhin E., Pitukhin A. Research of Thermal Stability and Fire-Resistance Properties of the Composite Materi- al “Water Glass-Graphite Microparticles” // Key Engineering Materials. Submitted: 2016. Vol. 744. P. 27-31 doi:10.4028 /www.scientific.net/ KEM.744.27. 17. Ustinov A.S., Pituhin E.A. Research of “water glass - graphite microparticles” composite material on the method of thermogravime- try // Scientific and Technical Journal of Information Technologies, Mechanics and Optics. 2017. T. 17, № 5. P. 826-833. 18. Isachenko V.P. Heat transfer / V.P. Isachenko, V.A. Osi- pova, A.S Sukomel. M.: Energiya, 1975. 488p. 19. GOST 12.1.005-88. Occupational safety standards system. General sanitary requirements for working zone air (s Izmene- niem N 1). M.: Standartinform, 2008. 20. ISO 834-12:2012. Fire resistance tests. Elements of build- ing construction. Part 12: Specific requirements for separating elements evaluated on less than full scale furnaces. 21. Chemical encyclopedia: V 5 t. / gl. red. I.L. Kn unyanc, N.S. Zefirov. M.: Sovetskaya encyclopedia. 1998. T. 4. 300 p.