表面技术
錶麵技術
표면기술
SURFACE TECHNOLOGY
2015年
4期
109-112,117
,共5页
郭毅%杜仕国%许建国%刘振宇%张宝华%严凤斌
郭毅%杜仕國%許建國%劉振宇%張寶華%嚴鳳斌
곽의%두사국%허건국%류진우%장보화%엄봉빈
TiO2%玻璃鳞片%涂层
TiO2%玻璃鱗片%塗層
TiO2%파리린편%도층
TiO2%glass flake%coating
目的:制备TiO2/玻璃鳞片复合颗粒以改善玻璃鳞片与涂层的界面性能,提高复合涂层的抗渗透能力。方法利用溶胶回流法在玻璃鳞片表面制备一层TiO2薄膜,通过SEM,EDS以及XPS等技术表征TiO2薄膜的表面状态。制备复合涂层,利用EIS和盐雾试验测试TiO2/玻璃鳞片的抗渗透能力,并与玻璃鳞片的抗渗透性进行对比。结果玻璃鳞片表面被TiO2薄膜包覆, TiO2薄膜与玻璃鳞片表面以Si—O—Ti化学键连接,浸泡15 d后,玻璃鳞片涂层的Zw 为8781Ω,TiO2/玻璃鳞片涂层的Zw 为75234Ω。盐雾试验后,TiO2/玻璃鳞片涂层下的金属几乎没有腐蚀。结论玻璃鳞片经过TiO2包覆后,具有较强的抗渗透能力。
目的:製備TiO2/玻璃鱗片複閤顆粒以改善玻璃鱗片與塗層的界麵性能,提高複閤塗層的抗滲透能力。方法利用溶膠迴流法在玻璃鱗片錶麵製備一層TiO2薄膜,通過SEM,EDS以及XPS等技術錶徵TiO2薄膜的錶麵狀態。製備複閤塗層,利用EIS和鹽霧試驗測試TiO2/玻璃鱗片的抗滲透能力,併與玻璃鱗片的抗滲透性進行對比。結果玻璃鱗片錶麵被TiO2薄膜包覆, TiO2薄膜與玻璃鱗片錶麵以Si—O—Ti化學鍵連接,浸泡15 d後,玻璃鱗片塗層的Zw 為8781Ω,TiO2/玻璃鱗片塗層的Zw 為75234Ω。鹽霧試驗後,TiO2/玻璃鱗片塗層下的金屬幾乎沒有腐蝕。結論玻璃鱗片經過TiO2包覆後,具有較彊的抗滲透能力。
목적:제비TiO2/파리린편복합과립이개선파리린편여도층적계면성능,제고복합도층적항삼투능력。방법이용용효회류법재파리린편표면제비일층TiO2박막,통과SEM,EDS이급XPS등기술표정TiO2박막적표면상태。제비복합도층,이용EIS화염무시험측시TiO2/파리린편적항삼투능력,병여파리린편적항삼투성진행대비。결과파리린편표면피TiO2박막포복, TiO2박막여파리린편표면이Si—O—Ti화학건련접,침포15 d후,파리린편도층적Zw 위8781Ω,TiO2/파리린편도층적Zw 위75234Ω。염무시험후,TiO2/파리린편도층하적금속궤호몰유부식。결론파리린편경과TiO2포복후,구유교강적항삼투능력。
ABSTRACT:Objective To prepare TiO2/glass flake composite particles in order to improve the interface properties of glass flake and the coating, and enhance the anti-penetration capability of the composite coating. Methods A layer of TiO2 film was prepared on the surface of glass flake by Sol-refluxing method, and the surface state of the TiO2 film was characterized by SEM,EDS and XPS. The composite coating was prepared and its anti-penetration ability was tested by EIS and salt spray test, and contrasted with that of glass flake. Results The surface of glass flake was coated by TiO2 film, and the TiO2 film connected with glass flake through Si—O—Ti chemical bond. After immersing in salt solution for 15 d, Zw of glass flake coating was 8781 Ω,and that of TiO2/glass flake coating was 75234Ω. After salt spray test, the metal protected by TiO2/glass flake coating was nearly not corroded. Conclu-sion The glass flake, coated by TiO2 film, had strong anti-penetration ability.