Anti-corrosion polymer coatings for vehicles protection
| Назва | Anti-corrosion polymer coatings for vehicles protection |
| Назва англійською | Anti-corrosion polymer coatings for vehicles protection |
| Автори | Oleksandr Sapronov, Serhii Zinchenko, Dmytro Nagovskyi, Vitalii Naumov, Oleksandr Golotenko, Anna Sapronova, Serhii Yakushchenko, Vitalii Sotsenko |
| Принадлежність | Kherson State Maritime Academy, Kherson, Ukraine Ternopil Ivan Puluj National Technical University, Ternopil, Ukraine |
| Бібліографічний опис | Anti-corrosion polymer coatings for vehicles protection / Oleksandr Sapronov, Serhii Zinchenko, Dmytro Nagovskyi, Vitalii Naumov, Oleksandr Golotenko, Anna Sapronova, Serhii Yakushchenko, Vitalii Sotsenko // Scientific Journal of TNTU. — Tern.: TNTU, 2023. — Vol 112. — No 4. — P. 127–137. |
| Bibliographic description: | Sapronov O., Zinchenko S., Nagovskyi D., Naumov V., Golotenko O., Sapronova A., Yakushchenko S., Sotsenko V. (2023). Anti-corrosion polymer coatings for vehicles protection. Scientific Journal of TNTU (Tern.), vol 112, no 4, pp. 127–137. |
| DOI: | https://doi.org/10.33108/visnyk_tntu2023.04.127 |
| УДК | 667.64:678.026 |
| Ключові слова | epoxy binder, adhesion, filler, mathematical design of the experiment, corrosion, defect analysis. |
Epoxy diane oligomer ED-20, polyethylene polyamine PEPA hardener, powdered synthesized iron/titanium carbide mixture with dispersion of 10...12 μm, and the filler of plant origin with dispersion of 0.4...0.6 μm were used to form anticorrosive coatings. The investigation of the change in the value of resistivity and specific capacity in the diesel fuel environment was carried out, taking into account the rational ratio of differently dispersed fillers in the epoxy binder. The decrease in the resistivity of protective coatings by 1.5...1.6 times relative to the epoxy matrix was achieved. At the same time, the correlation with the value of the capacitance, which decreases by 1.8...2.0 times, respectively was established. Additionally, visual analysis of the surface of the developed coatings was carried out. They were kept for 6552 h in the river water at variable temperatures - T = 263...293 ± 2 K. For coatings containing the rational combination of two fillers, no defects in the form of cracks, peeling, and swelling were observed. | |
| ISSN: | 2522-4433 |
| Перелік літератури |
1. Shao Y., JiaC., Meng G., Zhang T., Wang F. The role of a zinc phosphate pigment in the corrosion of scratched epoxy-coated steel, Corros. Sci. 2009. 51. Р. 371–379.
2. Buketov A., Sapronov O., Brailo M., Stukhlyak D., Yakushchenko S., Buketova N., Sapronova A., Sotsenko V. The Use of Complex Additives for the Formation of Corrosion- and Wear-Resistant Epoxy Composites. Advances in Materials Science and Engineering. Vol. 2019. Article ID 8183761. 5 p. 2019.
3. Svoboda M., Mleziva J. Properties of coatings determined by anticorrosive pigments. Prog. Org. Coat. 1984. 12. Р. 251–297.
4. Bastos A. C., Ferreira M. G., Simoes A. M. Corrosion inhibition by chromate and phosphate extracts for iron substrates studied by EIS and SVET, Corros. Sci. 2006. 48. Р. 1500–1512.
5. Sizonenko O. N., Baglyuk G. A., Raichenko A. I., Taftai E. I., Lipyan E. V., Zaichenko A. D., Torpakov A. S. and Guseva E. V. Variation in the Particle Size of Fe–Ti–B4C Powders Induced by High-Voltage Electrical Discharge. Powder Metallurgy and Metal Ceramics. 2012. Vol. 51. No. 3–4. Р. 129–136.
6. Sizonenko O. N., Baglyuk G. A., Taftai É. I., Zaichenko A. D., Lipyan E. V., Torpakov A. S., Zhdanov A. A. and Pristash N. S. Dispersion and Carburization of Titanium Powders by Electric Discharge. Powder Metallurgy and Metal Ceramics. 2013. Vol. 52. No. 5–6. Р. 247–253. 7. Panda A., Dyadyura K., Valíček J., Harničárová M., Kušnerová M., Panda A., Dyadyura K., Valíček J., Harničárová M., Kušnerová M., Ivakhniuk T., Hrebenyk L., Sapronov O., Sotsenko V., Vorobiov P., Levytskyi V, Buketov A, Pandová I. Ecotoxicity Study of New Composite Materials Based on Epoxy Matrix DER-331 Filled with Biocides Used for Industrial Applications. Polymers. 2022. 14 (16):3275.
8. Buketov A. V., Sapronov А. А., Buketova N. N., Brailo M. V., Marushak P. О., Panin S. V. and Amelin M. Y. Impact Toughness of Nanocomposite Materials Filled with Fullerene C60 Particles. Composites: Mechanics, Computations, Applications: An International Journal. 2018. Vol. 9. No. 2. Р. 141–161.
9. Sapronov O. O., Buketov A. V., Yakushchenko S. V., Syzonenko O. M., Sapronova A. V., Sotsenko V. V., Vorobiov P. O., Lypian Ye. V., Sieliverstov I. A., Dobrotvor I. H. Application of synthesized iron/titanium carbide mixture for restoration of water transport parts by epoxy composites. Composites: Mechanics, Computations, Applications: An International Journal. 2021. Vol. 12 (4). Р. 23–35. 10. Brailo M. V,Buketov A. V., Yakushchenko S. V., Sapronov O. O., Dulebova L. Optimization of contents of two-component polydispersed filler by applying the mathematical design of experiment in forming composites for transport repairing. Bulletin of the Karaganda University. “Mathematics” series. 2018. No. 1 (89). Р. 93–104.
11. Buketov А. V., Brailo M. V., Stukhlyak D. P., Yakushchenko S. V., Sapronov O. O., Cherniavskyi V. V., Husiev V. M., Dmitriev D. А., Yatsyuk V. M., Bezbakh І. І., Negrutsa R. Yu. Optimization of components in development of polymeric coatings for restoration of transport vehicles. Bulletin of the Karaganda University. “Mathematics” series. 2018. No. 4 (92). Р. 119–131.
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| References: |
1. Shao Y., JiaC., Meng G., Zhang T., Wang F. The role of a zinc phosphate pigment in the corrosion of scratched epoxy-coated steel, Corros. Sci. 2009. 51. Р. 371–379.
2. Buketov A., Sapronov O., Brailo M., Stukhlyak D., Yakushchenko S., Buketova N., Sapronova A., Sotsenko V. The Use of Complex Additives for the Formation of Corrosion- and Wear-Resistant Epoxy Composites. Advances in Materials Science and Engineering. Vol. 2019. Article ID 8183761. 5 p. 2019.
3. Svoboda M., Mleziva J. Properties of coatings determined by anticorrosive pigments. Prog. Org. Coat. 1984. 12. Р. 251–297.
4. Bastos A. C., Ferreira M. G., Simoes A. M. Corrosion inhibition by chromate and phosphate extracts for iron substrates studied by EIS and SVET, Corros. Sci. 2006. 48. Р. 1500–1512.
5. Sizonenko O. N., Baglyuk G. A., Raichenko A. I., Taftai E. I., Lipyan E. V., Zaichenko A. D., Torpakov A. S. and Guseva E. V. Variation in the Particle Size of Fe–Ti–B4C Powders Induced by High-Voltage Electrical Discharge. Powder Metallurgy and Metal Ceramics. 2012. Vol. 51. No. 3–4. Р. 129–136.
6. Sizonenko O. N., Baglyuk G. A., Taftai É. I., Zaichenko A. D., Lipyan E. V., Torpakov A. S., Zhdanov A. A. and Pristash N. S. Dispersion and Carburization of Titanium Powders by Electric Discharge. Powder Metallurgy and Metal Ceramics. 2013. Vol. 52. No. 5–6. Р. 247–253. 7. Panda A., Dyadyura K., Valíček J., Harničárová M., Kušnerová M., Panda A., Dyadyura K., Valíček J., Harničárová M., Kušnerová M., Ivakhniuk T., Hrebenyk L., Sapronov O., Sotsenko V., Vorobiov P., Levytskyi V, Buketov A, Pandová I. Ecotoxicity Study of New Composite Materials Based on Epoxy Matrix DER-331 Filled with Biocides Used for Industrial Applications. Polymers. 2022. 14 (16):3275.
8. Buketov A. V., Sapronov А. А., Buketova N. N., Brailo M. V., Marushak P. О., Panin S. V. and Amelin M. Y. Impact Toughness of Nanocomposite Materials Filled with Fullerene C60 Particles. Composites: Mechanics, Computations, Applications: An International Journal. 2018. Vol. 9. No. 2. Р. 141–161.
9. Sapronov O. O., Buketov A. V., Yakushchenko S. V., Syzonenko O. M., Sapronova A. V., Sotsenko V. V., Vorobiov P. O., Lypian Ye. V., Sieliverstov I. A., Dobrotvor I. H. Application of synthesized iron/titanium carbide mixture for restoration of water transport parts by epoxy composites. Composites: Mechanics, Computations, Applications: An International Journal. 2021. Vol. 12 (4). Р. 23–35. 10. Brailo M. V,Buketov A. V., Yakushchenko S. V., Sapronov O. O., Dulebova L. Optimization of contents of two-component polydispersed filler by applying the mathematical design of experiment in forming composites for transport repairing. Bulletin of the Karaganda University. “Mathematics” series. 2018. No. 1 (89). Р. 93–104.
11. Buketov А. V., Brailo M. V., Stukhlyak D. P., Yakushchenko S. V., Sapronov O. O., Cherniavskyi V. V., Husiev V. M., Dmitriev D. А., Yatsyuk V. M., Bezbakh І. І., Negrutsa R. Yu. Optimization of components in development of polymeric coatings for restoration of transport vehicles. Bulletin of the Karaganda University. “Mathematics” series. 2018. No. 4 (92). Р. 119–131.
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