Title :
Mathematical model of critically low supersaturation self-organization at carbon nanofibers formation
Author :
Perekrestov, V.I. ; Davydenko, T.O. ; Kosminska, Yu.A.
Author_Institution :
Sumy State Univ., Sumy, Ukraine
Abstract :
In this paper we present the idea that the basis of all the technologies required for the production of carbon nanofibers are constant over time small relative supersaturation of the deposited vapor. The proof is carried out by the example of arc discharge technology of the first CNT obtaining. The phase plane method shows yield of the system, determining a self consistent change in the growth surface temperature (T), the concentration of ions of the substance (n) and supersaturation (ξ), in a stationary mode at critical low supersaturation.
Keywords :
arcs (electric); carbon nanotubes; nanofibres; vapour deposition; CNT; arc discharge technology; carbon nanofiber formation; critically low supersaturation self-organization; deposited vapor; growth surface temperature; ion concentration; mathematical model; phase plane method; stationary mode; time small relative supersaturation; Carbon; Carbon nanotubes; Discharges (electric); Educational institutions; Electronic mail; Ions; Mathematical model;
Conference_Titel :
Microwave and Telecommunication Technology (CriMiCo), 2013 23rd International Crimean Conference
Conference_Location :
Sevastopol
Print_ISBN :
978-966-335-395-1
