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Information × Registration Number 0223U000798, 0122U200691 , R & D reports Title Development of technology and research of properties of nanomodified fluoroplastic coatings for parts of industrial enterprises popup.stage_title Head Zakharkevych Oksana V., Доктор технічних наукOleksandrenko Viktor P., Доктор технічних наук Registration Date 20-01-2023 Organization Khmelnytskyi National University popup.description2  The research object is nanomodified fluoroplastic coatings with high adhesion to the metal surface and increased wear resistance of the outer layer. The work aims to create a priming layer with high adhesion to the surface and develop the electrodeposition application of nanomodified fluoroplastic coatings based on F-30P fluoropolymer with increased wear resistance and study their properties. Research methods - the study of adhesion and resistance to scratching damage of nanomodified fluoroplastic coatings was performed according to ASTM D 2197, "Method for determining adhesion of organic coatings by scraping," using the NOVOTEST Ц1-M device. Research on the abrasion of fluoroplastic coatings was carried out using the device for testing materials for resistance to abrasion DIT-M 00.000 PS. It was established that it is necessary to create a primer layer to increase the adhesion of the fluoroplastic coating to the metal surface, which includes adhesion promoters: graphite C-1 - 25 wt.%, highly dispersed aminoorganosilica based on aerosol - 3 wt. %. Studies on abrasion resistance of the developed fluoroplastic coatings showed that when the outer layer of a three-layer fluoroplastic coating based on F-30P was added to the composition, 17 wt. % graphite C-1 + 1 wt. % aminoorganosilica based on Aerosil + 2 wt. % ZrО2 +3 % Y2 O3 (500) °C or 2 wt. % ZrО2 +3 % Y2O3 (700 °C) or 2 wt. % of amorphous zirconium hydroxide doped with yttrium ions (the amount of yttrium in terms of oxides is 3 mol %): Zr(Y)O(OH)2 the abrasion resistance of the coating increases by 1.38, 1.57 and 1.83 times, respectively. The technology of electrostatic application of a nanomodified fluoroplastic coating on a metal surface has been developed: the first primer layer must be applied at an electrostatic field strength of 50 kV, and for subsequent layers, the strength should be increased to 60–70 kV Product Description popup.authors Demchuk Oleksandr S. Zlotnykov Vadym O. Kyrychenko Ludmyla M. Oleksandrenko Viktor P. Svidersky Vladyslav Petrovych popup.nrat_date 2023-01-20 Close