Anti-corrosion coatings based on modified epoxy compositions

dc.citation.epage147
dc.citation.issue1
dc.citation.journalTitleХімія, технологія речовин та їх застосування
dc.citation.spage144
dc.citation.volume6
dc.contributor.affiliationНаціональний університет “Львівська політехніка”
dc.contributor.affiliationФізико-механічний інститут ім. Г. В. Карпенка НАН України
dc.contributor.affiliationLviv Polytechnic National University
dc.contributor.affiliationKarpenko Physico-Mechanical Institute of the NAS of Ukraine
dc.contributor.authorГуменецький, Т. В.
dc.contributor.authorБілий, Л. М.
dc.contributor.authorЧопик, Н. В.
dc.contributor.authorБощук, А. І.
dc.contributor.authorHumenetskyi, T. V.
dc.contributor.authorBilyi, L. M.
dc.contributor.authorChopyk, N. V.
dc.contributor.authorBoshchuk, A. I.
dc.coverage.placenameЛьвів
dc.coverage.placenameLviv
dc.date.accessioned2024-02-09T09:24:45Z
dc.date.available2024-02-09T09:24:45Z
dc.date.created2023-02-28
dc.date.issued2023-02-28
dc.description.abstractДосліджено вплив поверхнево модифікованого діоксиду титану на електрохімічні характеристики епоксидних композицій. Встановлено підвищення захисних властивостей епоксидної ґрунтовки за присутності у її складі поверхнево модифікованих наповнювачів. Показано, що механізм захисної дії модифікованого наповнювача у епоксидному покритті на сталі подібний до впливу суцільного фосфату цинку, а його ефективність знаходиться на рівні відомого інгібувального пігменту.
dc.description.abstractThe influence of surface-modified titanium dioxide on the electrochemical features of epoxy compositions was researched. The raise of epoxy primer protective properties by the presence of surface-modified fillers in its composition was determined. It is shown that the mechanism of the modified filler protective effect in epoxy coating applied on the steel is similar to the effect of solid zinc phosphate which effectiveness corresponds to the level of the known inhibitory pigment.
dc.format.extent144-147
dc.format.pages4
dc.identifier.citationAnti-corrosion coatings based on modified epoxy compositions / T. V. Humenetskyi, L. M. Bilyi, N. V. Chopyk, A. I. Boshchuk // Chemistry, Technology and Application of Substances. — Lviv : Lviv Politechnic Publishing House, 2023. — Vol 6. — No 1. — P. 144–147.
dc.identifier.citationenAnti-corrosion coatings based on modified epoxy compositions / T. V. Humenetskyi, L. M. Bilyi, N. V. Chopyk, A. I. Boshchuk // Chemistry, Technology and Application of Substances. — Lviv : Lviv Politechnic Publishing House, 2023. — Vol 6. — No 1. — P. 144–147.
dc.identifier.doidoi.org/10.23939/ctas2023.01.144
dc.identifier.issn2617-7307
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/61185
dc.language.isoen
dc.publisherВидавництво Львівської політехніки
dc.publisherLviv Politechnic Publishing House
dc.relation.ispartofХімія, технологія речовин та їх застосування, 1 (6), 2023
dc.relation.ispartofChemistry, Technology and Application of Substances, 1 (6), 2023
dc.relation.references1. Shreir, L. L., Jarman, R. A., Burstein, G. T. (1994). Corrosion. (3rd Edition) V. 1. doi.org/10.1016/C2009-0-24066-9.
dc.relation.references2. Romagnoli, R. Vetere ,V. F. (2005). Heterogeneous reaction between steel and zinc phosphate. Corrosion, 51 (2), 116–123. NACE-95020116.
dc.relation.references3. Deya, M. C., Blustein, G., Romagnoli, R., del Amo, B. (2009). Zinc hypophosphite: a suitable additive for anticorrosive paints to promote pigments synergism. Journal of Coatings Technology and Research, 6 (3), 369. GALE|A206957066.
dc.relation.references4. Rammelt, U. Reinhard, G. (1994). Characterization of active pigments in damage of organic coatings on steel by means of electrochemical impedance spectroscopy. Progress in Organic Coatings, 24, 309–322. doi:10.1016/0033-0655(94)85022-4.
dc.relation.references5. Iversen, A., Backlund, M., Nilsson, J. O., Klang H., Thierry, D. (1995). Application of electrochemical impedance spectroscopy to study the degradation of coil-coated steel: Influence of chemical pre-treatment. Proceedings of Galvatech, 95, 163–170. doi:10.1134/s003602441299010x.
dc.relation.references6. Thompson, I., Campbell D. (1994). Interpreting nyquist responses from defective coatings on steel substrates. Corrosion Science, 36 (1), 187–198. doi.org/10.1023/F:1027484117065.
dc.relation.references7. Bernard, A. Boukamp. (1989). Equivalent Circuit. Version 3.97, Faculty of Chemical Technology. University of Twente, 52.
dc.relation.references8. Levie, R. (2015). The influence of surface roughness of solid electrodes on electrochemical measurements. Electrochimica Acta, 10, 113–130. doi:10.1016/0013-4686(65)87012-8.
dc.relation.references9. Armstrong, R. D., Burnham R. A. (2016). The effect of roughness on the impedance of the interface between a solid electrolyte and a blocking electrode. Journal of Electroanalytical Chemistry, 72, 257–266. doi.org/10.3390/polym14163345/257.
dc.relation.references10. Kerner, Z. Pajkosy, T. (1998). Impedance of rough capacitive electrodes: the role of surface disorder. Journal oj Electroanalytical Chemistry, 448, 139–142. doi:10.1016/S0022-0728(98)00025-4.
dc.relation.referencesen1. Shreir, L. L., Jarman, R. A., Burstein, G. T. (1994). Corrosion. (3rd Edition) V. 1. doi.org/10.1016/P.2009-0-24066-9.
dc.relation.referencesen2. Romagnoli, R. Vetere ,V. F. (2005). Heterogeneous reaction between steel and zinc phosphate. Corrosion, 51 (2), 116–123. NACE-95020116.
dc.relation.referencesen3. Deya, M. C., Blustein, G., Romagnoli, R., del Amo, B. (2009). Zinc hypophosphite: a suitable additive for anticorrosive paints to promote pigments synergism. Journal of Coatings Technology and Research, 6 (3), 369. GALE|A206957066.
dc.relation.referencesen4. Rammelt, U. Reinhard, G. (1994). Characterization of active pigments in damage of organic coatings on steel by means of electrochemical impedance spectroscopy. Progress in Organic Coatings, 24, 309–322. doi:10.1016/0033-0655(94)85022-4.
dc.relation.referencesen5. Iversen, A., Backlund, M., Nilsson, J. O., Klang H., Thierry, D. (1995). Application of electrochemical impedance spectroscopy to study the degradation of coil-coated steel: Influence of chemical pre-treatment. Proceedings of Galvatech, 95, 163–170. doi:10.1134/s003602441299010x.
dc.relation.referencesen6. Thompson, I., Campbell D. (1994). Interpreting nyquist responses from defective coatings on steel substrates. Corrosion Science, 36 (1), 187–198. doi.org/10.1023/F:1027484117065.
dc.relation.referencesen7. Bernard, A. Boukamp. (1989). Equivalent Circuit. Version 3.97, Faculty of Chemical Technology. University of Twente, 52.
dc.relation.referencesen8. Levie, R. (2015). The influence of surface roughness of solid electrodes on electrochemical measurements. Electrochimica Acta, 10, 113–130. doi:10.1016/0013-4686(65)87012-8.
dc.relation.referencesen9. Armstrong, R. D., Burnham R. A. (2016). The effect of roughness on the impedance of the interface between a solid electrolyte and a blocking electrode. Journal of Electroanalytical Chemistry, 72, 257–266. doi.org/10.3390/polym14163345/257.
dc.relation.referencesen10. Kerner, Z. Pajkosy, T. (1998). Impedance of rough capacitive electrodes: the role of surface disorder. Journal oj Electroanalytical Chemistry, 448, 139–142. doi:10.1016/S0022-0728(98)00025-4.
dc.rights.holder© Національний університет “Львівська політехніка”, 2023
dc.subjectепоксидна ґрунтовка
dc.subjectповерхнево модифікований наповнювач
dc.subjectінгібувальні пігменти
dc.subjectкорозійна стійкість
dc.subjectepoxyprimer
dc.subjectsurface-modified fillers
dc.subjectinhibitory pigments
dc.subjectcorrosion resistance
dc.titleAnti-corrosion coatings based on modified epoxy compositions
dc.title.alternativeАнтикорозійні покриття на основі модифікованих епоксидних композицій
dc.typeArticle

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