段远富,高四,张伟,黄锐.纳米碳孔金属化直接电镀技术[J].装备环境工程,2013,10(1):114-117. DUAN Yuan-fu,GAO Si,ZHANG Wei,HUANG Rui.Direct Plating Technology for PTH Nano-carbon[J].Equipment Environmental Engineering,2013,10(1):114-117.
纳米碳孔金属化直接电镀技术
Direct Plating Technology for PTH Nano-carbon
投稿时间:2012-08-20  修订日期:2013-01-01
DOI:
中文关键词:  纳米碳  孔金属化  直接电镀
英文关键词:nano-carbon  plated through hole  direct plating
基金项目:
作者单位
段远富 中南电子化学材料所,武汉430070 
高四 中南电子化学材料所,武汉430070 
张伟 中南电子化学材料所,武汉430070 
黄锐 中南电子化学材料所,武汉430070 
AuthorInstitution
DUAN Yuan-fu South-center Electronic Chemical Material Institute,Wuhan430070,China 
GAO Si South-center Electronic Chemical Material Institute,Wuhan430070,China 
ZHANG Wei South-center Electronic Chemical Material Institute,Wuhan430070,China 
HUANG Rui South-center Electronic Chemical Material Institute,Wuhan430070,China 
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中文摘要:
      纳米碳直接电镀的出现对传统的PTH是个挑战,它最大的特点就是替代传统的化学镀铜工艺,利用物理作用形成的导电膜就可以直接进行电镀。工艺程序简便,减少了控制因素,与传统PTH制程相比,使用药品数量减少,生产周期大大缩短,生产效率大幅度提高,环境友好,污水处理费用减少,使印制电路板制造的总成本降低。
英文摘要:
      The emergence of nano-carbon direct plating is a challenge to traditional PTH. The characteristic of nano-carbon direct plating is that substitute traditional chemical copper plating and direct plating through conductive film formed by physical effect. The process of nano-carbon direct plating is simplified; controlling factors of the process are reduced; chemical reagents used are less compared with traditional PTH. The process has the advantages of shorter production circle, greatly improved production efficiency, environment friendly, and less waste water treatment costs, which reduces total printed circuit board manufacturing costs.
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