硅烷无铬钝化膜的耐腐蚀性能及成分探究  被引量:11

Study on Corrosion Resistance and Composition of Silane Chromium-free Passivation Film

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作  者:冯瑞沁 衣守志[1] 董世文 闫婷婷[1] 焦斌[1] 

机构地区:[1]天津科技大学材料科学与化学工程学院,天津300457 [2]甘肃酒钢宏兴钢铁股份有限公司,甘肃嘉峪关735100

出  处:《表面技术》2014年第6期53-58,共6页Surface Technology

摘  要:目的探究无铬钝化膜的微观形貌和成膜机理。方法通过电化学实验评价钝化膜的耐腐蚀性能;通过扫描电镜观察钝化膜的微观形貌,探究其与耐腐蚀性之间的关系;通过XRD,EDS,XPS分析钝化膜的成分及组成。结果电化学实验表明,镀锌板经钝化处理后,钝化膜抑制锌层的阳极反应,有效降低腐蚀速率。SEM分析发现,钝化膜表面的平整度与其耐蚀性能无直接关系。XRD不能用于分析该工艺钝化膜的元素及组成。EDS和XPS分析结果表明,钝化膜主要含有Zn,C,O,N,Si等元素。结论有机大分子构成钝化膜的主要骨架,Si O2和硅酸盐等吸附于立体骨架结构中,形成一层致密的钝化膜,起到抑制锌层阳极反应的作用。Objective To study the microstructure and film-forming mechanism of chromium-free passivation film. Methods The corrosion resistance property of passivation film was determined by electrochemical tests. The relationship between the smoothness of the passivation film and the corrosion resistant properties was evaluated by SEM analysis. The element and constitution of passivation film were analyzed by XRD, EDS and XPS tests. Results After passivating treatment of the galvanized sheet, the passivation film could restrain the anodic reaction of zinc layer and decrease the corrosion rate. There was no direct relationship between the smoothness of the passivation film and the corrosion resistant properties as shown by SEM analysis. The element and composition of passivation film could not be tested by XRD but could be analyzed by EDS and XPS. The passivation film mainly contained zinc, carbon, oxygen, nitrogen, silicon etc. Conclusions The organic macromolecules formed the main frame in which SiO2 and silicate were absorbed. The unique combination formed a dense passivation film which could restrain the anodic reaction of zinc layer.

关 键 词:无铬钝化膜 镀锌板 微观形貌 电化学 

分 类 号:TG174.46[金属学及工艺—金属表面处理]

 

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