Use of Nanoparticles of a Finely Dispersed Silicon Carbide Obtained in an Electrothermal Boiling Bed as a Structural Modifier of Thermoplastic Polymers

Porous powders of a finely dispersed silicon carbide obtained as a result of the carbothermal reduction of silica in an electrothermal boiling-bed reactor were investigated. It was established that such a powder comprises silicon-carbide nanoparticles of size ~50–70 nm and filametry formations of th...

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Bibliographic Details
Published in:Journal of engineering physics and thermophysics 2019-09, Vol.92 (5), p.1253-1266
Main Authors: Dubkova, V. I., Borodulya, V. A., Vinogradov, L. M., Danilova-Tret′yak, S. M., Evseeva, L. E., Pinchuk, T. I.
Format: Article
Language:English
Subjects:
Classical Mechanics
Complex Systems
Electrical engineering
Engineering
Engineering Thermodynamics
Heat and Mass Transfer
Industrial Chemistry/Chemical Engineering
Nanoparticles
Polymer industry
Powders
Silicon
Silicon carbide
Thermodynamics
Thermoplastics
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Summary:Porous powders of a finely dispersed silicon carbide obtained as a result of the carbothermal reduction of silica in an electrothermal boiling-bed reactor were investigated. It was established that such a powder comprises silicon-carbide nanoparticles of size ~50–70 nm and filametry formations of these nanoparticles with an aspect ratio of ~5–15. It is shown that the silicon-carbide nanoparticles introduced in a thermoplastic polymer interact with its matrix and, in so doing, change the polymer structure, with the result that a composite material is formed. Such thermoplastic polymer composites possess enhanced physical, mechanical thermal, and thermophysical properties. New heat-conducting polymer composite materials having a high wear resistance and good antifriction properties have been developed. These materials can be used in machine building as protective coatings, members, and units of facilities operating in the regime of abrasive wear, in power and electrical engineering, and in microelectronics where there is a need for heat-conducting thermoplastic polymer materials.
ISSN:1062-0125
1573-871X
DOI:10.1007/s10891-019-02041-2