The behavior of carbon nanoparticles when heated in argon at pressure 105 PA in the temperature range from 473 K To 3973 K was considered. the basic physico-chemical processes occurring during the heating C94 was established.
94-Ar, carbon nanotubes, thermodynamic modeling, C94-Ar
1. Ubellode A.R., L'yuis F.A. Grafit i ego kristallicheskie soedineniya: per. s angl. E.S. Golovina, O.A. Cuhanova. M.: Mir, 1965. 257 s.
2. Kolokol'cev S.N. Uglerodnye materialy. Svoystva, tehnologii, primeneniya: ucheb. posobie. Dolgoprudnyy: Izd. dom «Intellekt», 2012. 296 s.
3. Barbin N.M., Terentiev D.I., Alekseev S.G., Tuktarov M.A., Romenkov A.A. Modeling of radioactive graphite oxidation in molten salts. Book of abstracts // The 33rd international symposium «Scientific basis for nuclear waste management». St.-Petersburg, 2009. P. 133.
4. Barbin N.M., Terentiev D.I., Alekseev S.G., Tuktarov M.A., Romenkov A.A. Modeling of radioactive graphite oxidation in molten salts: computer experiment // Material research society symposium proceeding. 2009. 1193. P. 359-366.
5. Vatolin N.A., Moiseev G.K., Trusov B.G. Termodinamicheskoe modelirovanie v vysokotemperaturnyh sistemah. M.: Metallurgiya, 1994. 352 s.
6. Gurevich L.V., Veyc I.V., Medvedev V.A. Termodinamicheskie svoystva individual'nyh veschestv: sprav.: v 4-h t. M.: Nauka, 1982. 8 540 s.
7. Alemasov V.E., Dergalin A.F., Tishin A.P. Termodinamicheskie i teplofizicheskie svoystva produktov sgoraniya: sprav.: v 5-i t. M.: VNIITI, 1971. 6 350 s.