摘要: 采用气流磨处理工业级 Cu2O,可有效减小颗粒粒径和分布范围,得到平均粒径约为 0.98 μm的微纳米 Cu2O;通过抑菌、抑藻、铜离子渗出速率、浅海浸泡等试验探讨了微纳米 Cu2O防污性能。结果表明:相对于工业级 Cu2O,微纳米 Cu2O的 24 h抑菌、抑藻率可分别提升约 28.82%和 21.82%,使防污涂料具有更优异的实海综合应用性能和防污性能;相对于纳米级 Cu2O,基于微纳米 Cu2O的防污涂层具有更稳定、可控的铜离子渗出性能,避免了因纳米 Cu2O引起的前期铜离子“暴释”而导致的资源浪费,以及后期铜离子渗出率不足而导致的防污效果欠佳等缺陷。
关键词:
微纳米,
氧化亚铜,
气流磨,
防污性能,
铜离子渗出速率
Abstract: The micron-nano size Cu2O with average particle size about 0. 98 μm was produced by jet mill,which could reduce the particle size and distribution range effectively.The anti-fouling performance of micron-nano size Cu2O was studied by anti-microbial test,anti-alga test,measurement of copper ion release rate and anti-fouling test in shallow submergence. The results showed that the anti-microbial rate and anti-alga rate of micron-nano size Cu2O increased by 28. 82% and 21. 82%respectively,comprehensive application performance and anti-fouling performance in anti-fouling coatings for on-site sea test were much better compared to commercial Cu2O. The copper ion release rate of anti-fouling coating based on micron-nano size Cu2O was more stable and controllable compared to nano size Cu2O,avoiding“Over release”of copper ion caused by nano size Cu2O.
Key words:
micron-nano size,
cuprous oxide,
jet mill,
anti-fouling performance,
copper ion release rate
中图分类号:
孙保库, 陆阿定, 胡建坤, 徐焕志, 张海春, 范会生, 郁小芬. 气流磨制备微纳米氧化亚铜及其防污性能研究[J]. 涂料工业, 2020, 50(1): 31-37.
Sun Baoku, Lu Ading, Hu Jiankun, Xu Huanzhi, Zhang Haichun, Fan Huisheng, Yu Xiaofen. Preparation of Micron-Nano Size Cu2O by Jet Mill and Its Anti-Fouling Performance[J]. Paint & Coatings Industry, 2020, 50(1): 31-37.