The structure of polymer composites has been investigated, and a procedure has been developed for calculating their effective thermal conductivity. Thermal conductivity measurements have been carried out, and the results of calculations have been compared with the authors' own experimental data and with independent experimental data, and also with manufacturers' data which are shown to be hundreds of percent too low.
Physical Quantities. Handbook. Energoizdat, Moscow, Table 15.28, p. 361 (1991).
4.
TamilinM., On the actual physical properties and possibilities of ‘heat insulation’ paints. Report of Institute of Technical Thermophysics, Ukrainian Acad. Sci. (2011).
MikheevV.A., and SulaberidzeV.Sh., The thermal conductivity of a composite material based on silicone with different fillers. D.F. Ustinov Baltic State Technical University ‘Voenmekh’, V.D. Mushenko Centre of Chemical Technologies, St Petersburg.
GodovskiiYu.K., Thermophysical Methods for Investigating Polymers.Khimiya, Moscow (1976).
9.
PrasolovR.S., Investigation of heat exchange under transient vacuum. Author's Abstract of Doctoral Dissertation.LITMO, Leningrad, 25 pp. (1967).
10.
Dul'nevG.N., and ZarichnyakYu.P., The Thermal Conductivity of Blends and Composite Materials. Reference Book.Energiya, Leningrad, 264 pp. (1974).
11.
RayleighJ.W., On the influence of obstacles arranged in rectangular order upon the properties of a medium. Phil. Mag., 32: 481–491 (1892).
12.
OdelevskiiV.I., Calculation of the generalised conductivity of heterogeneous systems. Zh. Tekh. Fiz., 21(6): 667–685 (1951).
13.
ZarichnyakYu.P., and IvanovV.A., Calculation of the thermal conductivity of filled fluoroplastics by methods of the theory of generalised conductivity. Plastmassy, (7): 35–37 (2013).
14.
OrdanjianS.S., Anomalous concentration dependences of thermal conductivity of nanoceramics AlN–TiN, ZrC–ZrB2. Russ. J. Non-Ferrous Met., (1): 92–96 (2014).
