研究了硫酸盐镀锌液中常见金属微量元素离子Pb2+、Cu2+、In3+、Ag+、Fe2+对沉积层的外观形貌、显微组织、结晶择优取向和耐蚀性的影响.研究表明:不同的杂质对镀层的外观、显微组织以及晶面的择优取向的影响不同;铅离子的引入降低了镀层的外观质量和(002)晶面的强度,铟离子的引入使镀层的外观质量和(002)晶面的强度均得到提高,起到了无机光亮剂的作用.
The effects of trace elements of common metal impurities Pb2 +, Cu2 +, In3 +, Ag + and Fe2 + in highspeed galvanization sulphate bath on the morphology、 microscopic structure and perfect crystal orientation ofzinc coating are studied. It is found that the intensities of (002) plane decrease with the addition of Pb, butincrease greatly with the addition of In. Indium in this bath plays a role of brighter.
参考文献
| [1] | 大河原薰;室井良一 .亞铅めつきのホィス力-發生と浴中化學腫關系[J].表面技术,1998,49(05):78-80. |
| [2] | WIART R Cahet .Zinc deposition and passivated hydrogen evolution in highly acidic sulfate electrolytes:depassivation by nickel impurities[J].Journal of Applied Electrochemistry,1990,20(04):1009-1011. |
| [3] | 温乃盟.铅离子对电镀锌钢板黑变的影响[J].材料保护,1997(09):13. |
| [4] | AULT A R .Effects of Certain Impurities on Zinc Electrowinning in High Purity Synthetic Solutions[J].Journal of Applied Electrochemistry,1988,18(01):583-584. |
| [5] | MAKINNON D J;BRANNEN J M .The Effect of Lead on Zinc Deposit Structures Obtained from High Purity Synthetic and Industrial Acid Sulfate Electrolytes[J].Journal of Applied Electrochemistry,1979,9(09):55-57. |
| [6] | MAKINNON D J;BRANNEN J M .Zinc Deposit Structures Obtained from High Purity Synthetic and Industrial Acid Sulfate Electrolytes With and Without Antimony and Glue Additions[J].Journal of Applied Electrochemistry,1977,7(02):451-453. |
| [7] | MAKINNON D J;BRANNEN J M .The Effect of Cadmium on Zinc Deposit Structuress Obtained from High Purity Synthefic and Industrial Acid Sulfate Electrolytes[J].Journal of Applied Electrochemistry,1979,9(03):71-74. |
| [8] | 土桥诚;吉原佐知雄 .亞铅电析皮膜の槽造にぉぼす各种添加剂の影响[J].表面技术,1997,48(04):100-101. |
| [9] | MISAO Ohbu;Kenichi Asakawa .Spangles of galvanized irons sheet[J].The Journal of the Metal Finishing Society of Japan,1973,24(01):13-20. |
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