The dependence of polyurethane nanocomposite permeability from filler material mass fraction was studied by means of Monte-Carlo simulation. A physical model of low pressure RF plasmas modification of the polyurethane nanocomposite is constructed.
полиуретан, проницаемость, наночастицы, ВЧ плазма, моделирование, метод МонтеКарло, polyurethane, permeability, nanoparticles, radio-frequency plasmas, simulation, Monte Carlo method
1. Reytlinger S.A. Pronicaemost' polimernyh materialov. M.: Himiya, 1974. 270 s.
2. Chalyh A.E. Diffuziya v polimernyh sistemah. M.: Himiya, 1987. 312 s.
3. Nielsen L.E. Models for the Permeability of Filled Polymer Systems // J. Macromol. Sci. 1967. V. 1. №5. P. 929-942.
4. Mitchner M., Kruger Ch. Chastichno ionizovannye gazy: Per. s angl. / Red. per. A. A. Ivanov. - M. : Mir, 1976. - 496 s.
5. Abdullin I.Sh., Zheltuhin V.S., Kashapov N.F. Vysokochastotnaya plazmenno-struynaya obrabotka materialov pri ponizhennyh davleniyah: Teoriya i praktika primeneniya. Kazan': Izd-vo Kazanskogo un-ta. 2000. 348 s.
6. I.Sh.Abdullin, V.S.Zheltuhin, I.R.Sagbiev, M.F.Shaehov. Modifikaciya nanosloev v vysokochastotnoy plazme ponizhennogo davleniya.-Kazan': Izd-vo Kazan. tehnol. un-ta,2007. -356 s.
7. Abdullin I.Sh., Zheltuhin V.S., Kudinov V.V., Sagbiev I.R. Formirovanie nanofaznyh sistem na poverhnosti metallov v vysokochastotnoy plazme ponizhennogo davleniya // Materialovedenie. -2007, № 9.S. 52-56.
8. Abdullin I.Sh., Zheltuhin V.S., Kudinov V.V., Sagbiev I.R., Sharafeev R.F. Formirovanie nanosloev na poverhnosti vol'framo-kobal'tovogo splava nizkoenergetichnoy ionnoy bombardirovkoy // Perspektivnye materialy.2008, №6.S.88-91. Smirnov B. M. Iony i vozbuzhdennye atomy v plazme. M.: Atomizdat, 1974.
