Electroless nickel plating is widely used as a surface treatment.
化学镀镍是广泛应用的一种表面处理工艺。
The technique of electroless nickel plating on ceramic powder was studied.
在陶瓷粉末表面开展了化学镀镍的工艺研究。
Regeneration techniques of electroless nickel plating baths were reviewed.
介绍了国内外化学镀镍老化液再生技术研究现状。
The electroless nickel plating: with, improve the corrosion render ability.
镀镍:打底用,增进抗蚀能力。
The influence factor on low-phosphorous electroless nickel plating is studied.
对低磷化学镀镍的影响因素进行了初步研究。
Electroless nickel plating pretreatment for aluminum is the most important tache.
铝基前处理对于化学镀镍是最为重要的一个环节。
The process of direct electroless nickel plating on magnesium alloy was studied in this paper.
研究了镁合金直接化学镀镍的工艺。
Semi-automatic rolling copper, nickel, silver, zinc, tin, etc. and electroless nickel plating.
半自动滚镀铜、镍、银、锌、锡及无电解镀镍等。
An electroless nickel plating process with high deposition rate was optimized by orthogonal test.
通过正交试验法优选出一种具有高磷含量的快速化学镀镍工艺配方。
The techniques and application of electroless Nickel Plating on Microelectronic packaging was researched.
本文对微电子封装化学镀镍生产工艺及应用进行了研究。
Several pretreatment methods for electroless nickel plating on hollow glass microspheres were investigated.
研究了对空心玻璃微球化学镀镍的几种前处理方法。
The chemical precipitation method is feasible for extending the life of electroless nickel plating solution.
采用化学沉淀法延长化学镀镍液寿命是切实可行的。
Choosing suitable complexing agent and accelerant is the key to middle-temperature acidic electroless nickel plating.
选择合适的络合剂及促进剂是进行中温酸性化学镀镍的关键。
Generalized electroless nickel plating technology involves pretreatment technology, nickel plating technology and after treatment.
广义的化学镀镍工艺包括镀前预处理工艺、镀镍工艺和后处理工艺。
The influences of each component content in plating bath, temperature and stirring speed on electroless nickel plating were discussed.
讨论了镀液中各组分含量、温度及搅拌速度对化学镀镍的影响。
A novel process for mirror bright electroless nickel plating is studied and the bath formulations and operating conditions are optimized.
研究了一种镜面光亮化学镀镍新工艺,优选了镀液配方及工艺条件。
The major technological parameters influenced on low temperature electroless nickel plating were discussed, and a optimum formula was obtained.
讨论了影响低温化学镀镍的主要工艺参数,获得了优选的工艺配方。
Through mathematical analysis, this paper set up an A-C mathematical model for measuring Ni2 + concentration in electroless nickel plating solution.
通过数学分析的方法建立起化学镀镍液的A - C数学模型。
Taking account of various aspects, adopting several kinds of methods mentioned above to treat spent electroless nickel plating baths synthetically...
综合考虑多方面认为,采用多种方法综合处理化学镀镍废液是一种综合利用资源、有利于环境保护、较为合理的处理方法。
The characteristics of electroless nickel plating were introduced, as well as the influences of main bath components on properties of nickel deposits.
介绍了化学镀镍的特点以及镀液主要成分对镀层性能的影响。
The main treatment methods of spent electroless nickel plating solution include chemical deposition, catalytic reduction, electrolysis, ionic exchange, etc.
化学镀镍废液的处理方法主要有化学沉淀法、催化还原法、电解法、离子交换法等。
The effects of electroless nickel plating on the particles morphology and the electrochemical properties of low-Co hydrogen storage alloy were investigated.
研究了化学镀镍对低钴贮氢合金粉末颗粒形态和电化学性能的影响。
A new technology of electroless nickel plating for magnesium alloys was developed by addition of fluoride in bath and using nickel sulfate as nickel resource.
向镀液中加入氟化物,采用硫酸镍代替碳酸镍作为镍源,开发出一种镁合金化学镀镍新工艺。
The effect of single component of inorganic metal salts and organic compounds, and combined brighteners on deposits of bright electroless nickel plating were studied.
分别研究了单组分无机金属盐、有机物以及组合光亮剂对化学镀镍层光亮性的影响。
Main features of low temperature electroless nickel plating were described, and studies of low temperature electroless nickel plating home and abroad were summarized.
本文阐述了低温化学镀镍的特点,总结了国内外在化学镀镍低温化方面的研究成果。
Comparison experiment results show that the failure is not caused by the permeation of plating solution but by the reaction happened in the electroless nickel plating.
通过对比实验发现,这些样品的失效不是由于镀液的渗透引起的,而是与化学镀镍过程中的化学反应有关。
Comparison experiment results show that the failure is not caused by the permeation of plating solution but by the reaction happened in the electroless nickel plating.
通过对比实验发现,这些样品的失效不是由于镀液的渗透引起的,而是与化学镀镍过程中的化学反应有关。
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