Monomeric Friction Coefficient of Metalnanodispersible Polymeric Systems

Authors B.B. Kolupayev1 , B.S. Kolupayev2 , V.V. Levchuk2 , Yu.R. Maksimtsev2 , V.A. Sidletskiy2
Affiliations

1 Institute of Cybernetics of the Rivne International Economical Humanities University of S. Demyanchuk, 4, S. Demyanchuka st., 33028, Rivne, Ukraine

2 The Rivne State Humanities university, 31, Plastovaya st., 33000, Rivne, Ukraine

Е-mail Levchuk_VV@ukr.net
Issue Volume 8, Year 2016, Number 4
Dates Received 15 August 2016; published online 23 December 2016
Citation B.B. Kolupayev, B.S. Kolupayev, V.V. Levchuk, et al., J. Nano- Electron. Phys. 8 No 4(2), 04072 (2016)
DOI 10.21272/jnep.8(4(2)).04072
PACS Number(s) 61.82.Pv, 82.35.Np
Keywords Relaxation spectrum, Monomeric friction coefficient, Segment, Flexibility of macromolecules.
Annotation Influence of a nanodispersible metal excipient in number of 0    5,0 vol.% Cu for the size of a monomeric friction coefficient of polyvinylchloride (PVC) systems in temperature range 298  Т  (Tg + 10) K is investigated. It is shown that various types of coordination movements of building blocks are described by a friction coefficient which serves as a measure of influence of external fields and ingredients on viscoelastic behavior of a composite. The analysis of processes of a relaxation on the basis of the theory of flexible chains taking into account power and entropic factors is carried out.

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