Affiliation:
1. Department of Mechanical Engineering, College of Engineering, Shanghai Ocean University, Shanghai 201306, China
Abstract
With the continuous exploitation of the marine resources, the equipment should meet the marine complex working environment. In this study, a type of environmentally friendly coating was prepared. Based on low surface energy environmental protection and anti-fouling, a film forming material with water-based epoxy-modified silicone resin emulsion was prepared. And industrial fillers were added to give it both inorganic and organic properties. Meanwhile, various contents of graphene oxide (GO) were added in the coating system. The coating properties were comprehensively analyzed, and the optimal GO content was obtained as 0.1 wt. %. The composite coating was studied by seawater immersion experiments, and the failure process of the coating in was proposed. The composite coating prepared in the present study has both environmental protection and hydrophobic anti-fouling characteristics, and its comprehensive performance is excellent through various performance evaluations, i.e., it meets the requirements of long-term coating, environmental friendliness and anti-fouling and corrosion resistance.
Funder
National Nature Science Foundation of China
Special funding for the development of science and technology of Shanghai Ocean University
Reference23 articles.
1. Effect and Remediation of Biofouling on Marine Aquaculture;Zhang;Mater. Rep.,2020
2. Development of Copper-free Self-polishing Anti-fouling Paints by Using Acrylate Resin;Sun;Surf. Technol.,2022
3. Extended hydrophobicity and self-cleaning performance of waterborne PDMS/TiO2 nanocomposite coatings under accelerated laboratory and outdoor exposure testing;Xu;J. Coat. Technol. Res.,2018
4. Improving, dirt pickup resistance in wat erborne coatings using latex blends of acrylic/PDMS polymers;Khanjani;Prog. Org. Coat.,2017
5. Study on stability of water-based two-component, i norganic coatings based on silica sols;Wang;Electroplat. Finish.,2021