It has been shown that the structural analysis of semicrystalline polymers specific heat can be performed equivalently within the frameworks of two models: cluster model of polymers amorphous state structure and fractal analysis. In both cases a specific heat growth is due to molecular mobility intensification at temperature enhancement.
аморфно-кристаллический полимер, теплоемкость, структура, молекулярная подвижность, фрактальная размерность, semicrystalline polymer, specific heat, structure, molecular mobility, fractal dimension
1. Piven', A.N. Grechanaya, N.A. Chernobyl'skiy, I.I. Teplofizicheskie svoystva polimernyh materialov - Kiev: Vysshaya shkola, 1976. - 180 s.
2. Godovskiy, Yu.K. Teplofizika polimerov - M.: Himiya, 1982. - 280 s.
3. Kozlov, G.V. Ovcharenko, E.N. Mikitaev, A.K. Struktura amorfnogo sostoyaniya polimerov - M.: Izd-vo RHTU im. D.I. Mendeleeva, 2009. - 392 s.
4. Mikitaev, A.K. Kozlov, G.V. Zaikov, G.E. Polimernye nanokompozity: mnogoobrazie strukturnyh form i prilozheniya - M.: Nauka, 2009. - 278 s.
5. Bashorov, M.T. Kozlov, G.V. Mikitaev, A.K. Nanostruktury i svoystva amorfnyh stekloobraznyh polimerov - M.: Izd-vo RHTU im. D.I. Mendeleeva, 2010. - 269 s.
6. Budtov, V.P. Fizicheskaya himiya rastvorov polimerov - SPb.: Himiya, 1992. - 384 s.
7. Kozlov, G.V. Sanditov, D.S. Angarmonicheskie effekty i fiziko-mehanicheskie svoystva polimerov - Novosibirsk: Nauka, 1994. - 261 s.
