Green and Heavy-Duty Anticorrosion Coatings: Waterborne Epoxy Thermoset Composites Modified through Variation of Zinc Dust Loading and Incorporation of Amine-Capped Aniline Trimer and Graphene Oxide.
Yun-Xiang LanYun-Hsuan ChenYing-Lung ChaoYu-Hsuan ChangYu-Chi HuangWei-Ren LiuWei-Tsan WongAndrew Chi-Fa SunKaren S SantiagoJui-Ming YehPublished in: Polymers (2024)
In this study, an array of environmentally friendly and heavy-duty anticorrosion composite coatings were prepared. The synthesis involved amine-capped aniline trimer (ACAT) produced by an oxidative coupling reaction and graphene oxide (GO) prepared based on Hummer's method, and later, the waterborne epoxy thermoset composite (WETC) coatings were prepared by thermal ring-opening polymerization of EP 147w, a commercial waterborne epoxy resin, in the presence of ACAT and/or GO with zinc dust (ZD). A synergistic effect was observed by replacing a significant amount of the ZD loading in the WETC by simultaneously incorporating a small amount of ACAT and GO. The electrochemical corrosion measurements of the as-prepared WETC coatings indicated that incorporating 5% w / w ACAT or 0.5% w / w GO separately replaced approximately 30% w / w or 15% w / w of the ZD, respectively. Moreover, the WETC coatings containing 5% w / w ACAT and 0.5% w / w GO simultaneously were found to replace 45% w / w of the ZD. A salt spray test based on ASTM B-117 also showed a consistent trend with the electrochemical results. Incorporating small amounts of ACAT and GO in WETC coatings instead of ZD not only maintains the anticorrosion performance but also enhances adhesion and abrasion resistance, as demonstrated by the adhesion and abrasion tests.