Composition, Morphology and Growth Mechanism of Fine Silver/Ag-graphite Composite Coating for Outdoor High Voltage Switch
摘 要
在氰化体系中使用电沉积方法在铜基表面分别制备了纯银和纯银/银石墨复合镀层。通过XRD(X射线衍射)、SEM(扫描电子显微镜)和FESEM(场发射扫描电子显微镜)对两种镀层的成分和形貌进行了对比分析,并建立复合镀层的生长模型。研究表明,纯银镀层平整致密,由银组成;纯银/银石墨镀层粗糙疏松,镀层含银和石墨,其中银的生长呈现出由球状到块状,再由块状到岛状的线性生长模式。
Abstract
The silver coating and fine silver/Ag-graphite composite coatings were prepared on copper by electro-deposition in cyanide system, respectively. The phase constituents and morphology of the two coatings were characterized by X-ray diffractometer (XRD), scanning electron microscopy (SEM) and field emission scanning electron microscope (FESEM). The growth model of composite coating was established. The results indicate that the silver coating consisting of sterling silver is smooth and dense. However, the fine silver/Ag-graphite composite coating composed of sliver and graphite is rough and loose. The growth pattern of Ag in the silver-graphite coating was as follows: spherical Ag changed to stacking Ag firstly, and then stacking Ag changed to island Ag with a linear growth pattern.
中图分类号 TG174 DOI 10.11973/fsyfh-201601005
所属栏目 试验研究
基金项目 航空基金(2013ZF56022); 国网浙江省电力公司科技/信息化项目(B355DW140005)
收稿日期 2015/6/25
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备注叶志国(1979-),副教授,博士,从事金属腐蚀与防护相关研究,
引用该论文: WAN Bin,LIU Lei,LANG Yun,YE Zhi-guo. Composition, Morphology and Growth Mechanism of Fine Silver/Ag-graphite Composite Coating for Outdoor High Voltage Switch[J]. Corrosion & Protection, 2016, 37(1): 22
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参考文献
【1】梁方建,张道乾. GW5-110型隔离开关触头发热缺陷分析及检修处理[J]. 高压电器,2008,44(1):88-90.
【2】林岩. 户外高压隔离开关常见缺陷分析及对策[J]. 电子科学,2010(3):16-17.
【3】吴振. 户外高压隔离开关过热的原因及对策[J]. 电气工程与自动化,2010,24:89-90.
【4】牛虎明. 国内外高压隔离开关的发展现状与趋势[J]. 电器工业,2008(2):24-30.
【5】WANG J,FENG Y,LI S,et al. Influence of graphite content on sliding wear characteristics of CNTs-Ag-G electrical contact materials[J]. Tran Nonferrous Met Soc China,2009,19(1):113-118.
【6】余海峰,雷景轩. 新型AgC5电触头材料的性能及显微组织[J]. 稀有金属材料与工程,2004,33(1):96-99.
【7】余海峰,马学鸣. 新型Ag-5% C电接触材料的制备及其电弧磨损特性的研究[J]. 稀有金属,2004,28(1):1-4.
【8】VISWANATHAN M,GHOUSE M. Occlusion plating of nickel graphite composites[J]. Metal Finishing,1979,77(10):67.
【9】姜晓霞. Ni-P/石墨减磨电镀工艺及沉积过程的研究[J]. 材料保护,1989(11):13.
【10】陈哲. 银石墨自润滑电接触复合镀层的制备[D]. 上海:上海交通大学,2008.
【2】林岩. 户外高压隔离开关常见缺陷分析及对策[J]. 电子科学,2010(3):16-17.
【3】吴振. 户外高压隔离开关过热的原因及对策[J]. 电气工程与自动化,2010,24:89-90.
【4】牛虎明. 国内外高压隔离开关的发展现状与趋势[J]. 电器工业,2008(2):24-30.
【5】WANG J,FENG Y,LI S,et al. Influence of graphite content on sliding wear characteristics of CNTs-Ag-G electrical contact materials[J]. Tran Nonferrous Met Soc China,2009,19(1):113-118.
【6】余海峰,雷景轩. 新型AgC5电触头材料的性能及显微组织[J]. 稀有金属材料与工程,2004,33(1):96-99.
【7】余海峰,马学鸣. 新型Ag-5% C电接触材料的制备及其电弧磨损特性的研究[J]. 稀有金属,2004,28(1):1-4.
【8】VISWANATHAN M,GHOUSE M. Occlusion plating of nickel graphite composites[J]. Metal Finishing,1979,77(10):67.
【9】姜晓霞. Ni-P/石墨减磨电镀工艺及沉积过程的研究[J]. 材料保护,1989(11):13.
【10】陈哲. 银石墨自润滑电接触复合镀层的制备[D]. 上海:上海交通大学,2008.
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