摘要:硫酸盐镀锡工艺生产成本低,原料易得,相比其他几种镀锡体系具有明显的优势,但使用硫酸亚锡作主盐,硫酸作导电盐,单纯的从这种简单的镀液中所获得的镀层疏松、发暗,加入某些添加剂通过提高镀液的性能,便可以获得结晶致密、光滑平整的镀层。本试验采用赫尔槽试验法,在硫酸亚锡和硫酸所配制成的基础镀液中,加入添加剂苄叉丙酮、甲醛、OP-10、OP-21,通过单因素优化试验的方法确定了最佳添加剂组合,并讨论了镀液中的硫酸亚锡、硫酸和添加剂的作用;且确定了电镀工艺的最佳条件。实验结果表明:通过由30g·L-1硫酸亚锡、80mL·L-1硫酸、0.4g·L-1苄叉丙酮、 7g·L-1OP-21、3mL·L-1甲醛组成的镀锡镀液,在20℃、电流强度为1.2安培下施镀10分钟所获得的镀层结晶细致、光亮。58423
毕业论文关键词:光亮镀锡;酸性镀锡;硫酸盐镀锡;光亮剂
Research on new method of bright acid tin plating
Abstract:The cost of sulfate tin plating’s production is low and easy to get its raw material.Compared to other methods of tin plating,sulfate tin plating has obvious advantage.By using stannous sulfate as main salt,sulfuric as the conducting salt,only can get dull and rough deposits through this simple electrolytes.After adding some additive which can improve the performance of electrolytes,a compact ,fine-grained and bright deposit will be formed. In this study,by using Hull cell test,add formaldehyde,benzylideneacetone,OP-10 and OP-21 to the basic tin plating electrolytes which consists of stannous sulfate and sulfate.And change each component content in solution,process condition(electric current and temperature) to find the best way to get a compact and bright deposit.Effects of each element on appearance of tin deposits was also studied.The results of experiments show by using the group of tin plating electrolytes which is composed of 30g·L-1 stannous sulfate,80mL·L-1 sulfate, 0.4g·L-1 benzylideneacetone, 7g·L-1OP-21 and 3mL·L-1 formaldehyde, under the condition which the plating temperature is 20℃ and the electric current is 1.2A,after platin for 10 min, a fine-grained and bright deposit was obtained.
Keywords:bright tin plating;acid tin plating;sulfate tin plating;addition agent
目录
1.绪论 1
1.1课题研究的背景、目的与意义 1
1.1.1研究的背景 1
1.1.2研究的目的与意义 1
1.2 课题研究的现状、水平与发展趋势 2
1.2.1 国外研究的现状和水平 2
1.2.2 国内研究的现状和水平 2
1.2.3 国内外研究的发展趋势 3
1.3 课题主要研究的内容 3
1.4 课题研究达到的目标 3
2.课题研究的技术原理 5
2.1 电极反应 5
2.2 锡的电结晶 6
2.3 添加剂的作用原理 6
3.课题研究的方法和方案 8
3.1 课题研究的方法 8
3.1.1 赫尔槽实验法 8
3.1.2 单因素优化实验方法 8
3.2 研究的方案 9
3.2.1 实验方案 新型酸性光亮镀锡工艺的研究:http://www.751com.cn/huaxue/lunwen_63344.html