山东化工
山東化工
산동화공
SHANDONG CHEMICAL INDUSTRY
2014年
9期
28-31
,共4页
有机硅烷%表面处理%硅烷复合膜
有機硅烷%錶麵處理%硅烷複閤膜
유궤규완%표면처리%규완복합막
organic silane%metal surface treatment%composite silane film
本文综述了一种新型绿色环保的材料表面处理技术-硅烷化处理技术。主要概述了有机硅烷的特性、硅烷膜的形成机理以及硅烷膜的改性方法,总结、展望了硅烷化处理技术的发展趋势。有机硅烷在铝合金、热镀锌钢、低碳钢等不同基体的成膜机理不同,其性能取决于膜的疏水性、厚度和致密度,通过掺杂纳米粒子、有自愈性的铈盐及铈的氧化物以及钼酸盐、锆酸盐等,与硅烷形成复合膜,可显著提高硅烷膜的性能,电化学辅助沉积、等离子体沉积等硅烷膜的新型沉积方法具有独特的优势。有机硅烷化处理技术作为一种新型、环保的表面处理技术,发展潜力巨大,但实现工业化还需要国内外学者共同努力。
本文綜述瞭一種新型綠色環保的材料錶麵處理技術-硅烷化處理技術。主要概述瞭有機硅烷的特性、硅烷膜的形成機理以及硅烷膜的改性方法,總結、展望瞭硅烷化處理技術的髮展趨勢。有機硅烷在鋁閤金、熱鍍鋅鋼、低碳鋼等不同基體的成膜機理不同,其性能取決于膜的疏水性、厚度和緻密度,通過摻雜納米粒子、有自愈性的鈰鹽及鈰的氧化物以及鉬痠鹽、鋯痠鹽等,與硅烷形成複閤膜,可顯著提高硅烷膜的性能,電化學輔助沉積、等離子體沉積等硅烷膜的新型沉積方法具有獨特的優勢。有機硅烷化處理技術作為一種新型、環保的錶麵處理技術,髮展潛力巨大,但實現工業化還需要國內外學者共同努力。
본문종술료일충신형록색배보적재료표면처리기술-규완화처리기술。주요개술료유궤규완적특성、규완막적형성궤리이급규완막적개성방법,총결、전망료규완화처리기술적발전추세。유궤규완재려합금、열도자강、저탄강등불동기체적성막궤리불동,기성능취결우막적소수성、후도화치밀도,통과참잡납미입자、유자유성적시염급시적양화물이급목산염、고산염등,여규완형성복합막,가현저제고규완막적성능,전화학보조침적、등리자체침적등규완막적신형침적방법구유독특적우세。유궤규완화처리기술작위일충신형、배보적표면처리기술,발전잠력거대,단실현공업화환수요국내외학자공동노력。
In this paper,a new green metal surface pretreating technique - silane treatment technology is introduced. The characteristics of organic silane,the formation process and mechanism of silane films and the modified silane film are mainly talked about. The formation mechanisms are different of organosilane films on different substrate of aluminum alloy, galvanized steel,low carbon steel and others,and the performance of the films is depending on itˊs hydrophobic,corrosion resistance,thickness and density. Through the ways doping with nano - particles,doping with cerium salt and cerium oxide which have self - healing property and getting composite films with molybdate,zirconate and etc can significantly improve the performance of the silane films. In addition to the traditional soaking,brushing deposition methods,the new method like assisted electrochemical deposition and plasma deposition have unique advantages. Silane treatment technology as a new,environment - friendly surface treatment technology,has very large a development potential,but it still requires efforts of scholars at home and abroad to making it using in the industrial application.