Е.М. Абуталипова, А.А. Александров, Ю.В. Лисин

126

ISSN 1812-3368. Вестник МГТУ им. Н.Э. Баумана. Сер. Естественные науки. 2017. № 2

Abstract

Keywords

The study investigates the heating process of the polymeric

coating–pipeline metal system under the influence of

microwave electromagnetic field. We developed a mathe-

matical model of thermal processes at microwave pro-

cessing of multilayer systems with non-uniform structure

and properties. Moreover, we developed and substantiated

the operating parameters of heat treatment technology for

pipeline anticorrosive polymeric coating by microwave

heating allowing for improvement of physical and mecha-

nical properties of the coating. Furthermore, we developed

a mobile microwave device for processing the coated pipe-

line internal surface. The study experimentally tests the

effect the microwave processing modes have on features of

thermal processes progress in the polymeric coating–

pipeline metal system, as well as its effect on development

of coating high serviceability. Finally, we examined the

characteristics and properties of coatings in the wide range

of microwave power influence, and determined tempera-

ture dependences of system heating on time and micro-

wave power influence. By experiment we established the

3…5 degrees temperature rise in the pair coating–primer

that promotes stronger adherence with pipeline metal

Pipeline, anticorrosive polymeric

coating, microwave processing, elec-

tromagnetic field, energy exchange

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