The results are given of experimental investigations of the electrophysical properties of composites based on polyvinyl chloride (PVC) and copper nanoparticles in weak electric fields. It is established that the electrical conductivity of the PVC systems depends non-linearly on the content of ultradispersed metal filler.
AvanesyanV.T., and PuchkovM.Yu., Electrical properties of a polymer based on a complex Ni(II) compound. ZhTF, 78(6): 1950 (2008).
11.
KolupaevB.S., Relaxation and Thermal Properties of Filled Polymer Systems, ed. by FrenkelS.Ya.LGU, Leningrad, 204 pp. (1980).
12.
Averko-AntonovichI.Yu., and BikmullinR.T., Methods for Investigating the Structure and Properties of Polymers. Textbook.KGTU, Kazan', 604 pp. (2002).
13.
ShikA.Ya., Physics of Small-Sized Systems.Nauka, St Petersburg (2001).
14.
Van KrevelenD.V., Properties and Chemical Structure of Polymers.Khimiya, Moscow, 414 pp. (1975).
15.
AleksandrovaE.L., Effects of switching in composite films based on a conjugated polymer of polyfluorene and ZnO nanoparticles. Fizika Tverdogo Tela, 52(2): 393–396 (2010).
16.
BlaitE.R., and BlurD., Electrical Properties of Polymers.Fizmatlit, Moscow, 378 pp. (2008).
17.
LipatovYu.S., Physicochemical Principles of the Filling of Polymers.Khimiya, Moscow, 260 pp. (1991).
18.
TugovI.I., and KostrykinaG.I., Polymer Physics and Chemistry.Khimiya, Moscow, 432 pp. (1989).
19.
LushcheikinG.A., Modelling and Optimisation of Polymeric Materials.KolosS, Moscow, 190 pp. (2009).
20.
Frenkel'S.Ya., Molecular Cybernetics.Svit, L'vov, 186 pp. (1990).
21.
Il'inA.P., The devlopment of electro-explosive technology for the production of nanopowder at the Scientific Research Institute of High Voltages at Tomsk Polytechnic University. Izv. Tomskogo Politekhnicheskogo Universiteta, 306(1): 133–139 (2003).
