| 1. | The availability of a cyanide-free cadmium plating bath with acceptable product quality has been suggested as an answer to simplified treatment needs .
为了简化废水处理的需要,已建议采用产品质量合格的无氰镀镉浴。 |
| 2. | Rapid analysis of iron impurity in the acidic zinc - plating bath
酸性镀锌溶液中铁杂质的快速分析 |
| 3. | Regeneration of spent electroless ni - cu - p plating bath
玻璃纤维化学镀镍钴磷合金废液的处理与回用 |
| 4. | Titration of zn2 and cu2 in brass plating bath with 5 - br - padap indicator
作指示剂滴定黄铜镀液中的锌和铜 |
| 5. | Control of the stability of plating bath for electroless nickel plating on aluminum alloy
铝合金化学镀镍槽液稳定性的控制 |
| 6. | Rapid determination of nickel in the acidic brightening tin - nickel alloy plating bath
酸性光亮镀锡镍合金镀液中镍的快速测定 |
| 7. | Treatment and recovery of spent electroless nickel - cobalt - phosphorous alloy plating bath by glass - fiber
玻璃纤维布化学镀镍磷合金耐腐蚀性研究 |
| 8. | Some technical innovations inspired from practice part v removal of copper impurity from acidic bright tin plating bath
光亮酸性镀锡液中铜杂质的去除 |
| 9. | We make use of double complexing agents and double quickening agents in the composite plating techniques which enable to increase the deposition rate and to obtain a more stable plating bath
在复合镀工艺中,采用双络合剂、双加速剂来提高镀速和稳定镀液。 |
| 10. | By study we find the activeness of carbon nanotube may be enhanced after oxidization , sensitization and activation . then we consider temperature , ph and composition of plating bath , in order to make the speed of coating as possible as slow
通过研究,发现经过研磨、氧化、敏化、活化后,可以提高碳纳米管表面的活性,通过改进镀液成分, ph值以及温度等,使沉积的速度尽可能的低。 |
