INFLUENCE OF TEMPERATURE FIELDS ON INSULATION POLYMERIC COATING ADHESION | Zendy

K. E. Bondar | Zendy; S. Ivanov | Zendy; С. В. Лапонов | Zendy; Д. Ф. Сулейманов | Zendy; Н. С. Шулаев | Zendy

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INFLUENCE OF TEMPERATURE FIELDS ON INSULATION POLYMERIC COATING ADHESION

Author(s) -

K. E. Bondar,

S. Ivanov,

С. В. Лапонов,

Д. Ф. Сулейманов,

Н. С. Шулаев

Publication year - 2021

Language(s) - English

Resource type - Conference proceedings

DOI - 10.34708/gstou.conf..2021.37.75.025

Subject(s) - piping , coating , materials science , composite material , polymer , microwave , adhesion , reliability (semiconductor) , service life , polyvinyl chloride , radiation , mechanical engineering , computer science , optics , engineering , telecommunications , power (physics) , physics , quantum mechanics

В статье приведены результаты исследования воздействия электромагнитного излучения сверхвысокочастотного диапазона на изоляционные полимерные материалы трубопроводов изготовленных на основе поливинилхлорида и прогнозирование влияния излучения на адгезионные свойства. Показано улучшение эксплуатационных характеристик материалов, приводящее к увеличению срока службы и надежности трубопроводных систем. Разработан метод расчета изменения и распределения температур по поверхности изолируемого материала, вызванных микроволновым излучением, необходимый для определены оптимальных режимов обработки полимера. The article provides the results of the research into the high-frequency electromagnetic radiation influence on polyvinyl chloride based polymeric piping coatings as well as forecasting how radiation can affect adhesion. It also exhibits the improvement of materials efficiency leading to longer service and higher reliability of piping systems. A calculation method for temperature changes and distribution across the coated material under the influence of microwave radiation has been developed which is required to establish the most appropriate polymer treatment techniques.

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