1) The application of activated cathode technology
活性阴极技术应用
2) cathode technique
阴极技术
1.
One of the main reasons for the gap is attributed to our behindhand cathode technique.
本文对铝电解槽内衬应力和热平衡设计、阴极材料质量和焙烧方法等阴极技术问题进行了描述和分析。
3) active cathode
活性阴极
1.
Preparation and characterization of a new type active cathode material;
一种新型活性阴极材料的制备和性能
2.
Study on rare earth metal-containing active cathodes;
含稀土合金活性阴极的研究
3.
This paper introduces the chlor-alkali industry in the development of active cathode, and through an alloy electrodes prepared by electrodeposition.
介绍了氯碱工业中活性阴极的发展现状,并通过电沉积法制备了一种合金电极,对其电镀工艺进行了探讨,得出了最佳工艺条件:镍∶钐=1∶1;电镀时间为120min;温度为20℃;pH值=4。
4) activated cathode
活性阴极
1.
Application of modified diaphragm electrolyzer with activated cathode process;
活性阴极改性隔膜电槽的使用
2.
Economic feasibility analysis of activated cathode electrolyzer revamping;
活性阴极电解槽改制可行性经济分析
3.
Development and application of nano-activated cathodes for diaphragm electrolyzers;
隔膜电解槽纳米活性阴极的开发与应用
5) cathode activity
阴极活性
6) activated carbon cathode
活性炭阴极
1.
The process of reclaiming Ni (II) in wastewater to produce nickel sulphate was studied by electrochemistry method with activated carbon cathode.
研究了采用活性炭阴极电化学法,回收废水中的Ni(Ⅱ)生产硫酸镍的工艺。
补充资料:活性阴极
分子式:
CAS号:
性质:又称活性氢阴极(active hydrogen cathode)。在电解过程中析氢过电位比铁阴极低、电催化活性比铁阴极高的阴极。以铁、镍或者其合金为基体材料,经脱脂、喷砂、酸洗等预处理后,用电解(直流电和脉冲镀)、真空喷镀有机物分散等方法将铂、钯、钨、铝、锌、磷、钴、钼、锆、镧等金属或其合金涂(或喷涂)于基体上,经水漂洗、非高温处理涂层后制得。具有氢过电位低等优点,可降低氯碱电解工艺的总能耗。缺点是涂层因受阴极液中杂质铁的毒化易剥离而丧失活性。
CAS号:
性质:又称活性氢阴极(active hydrogen cathode)。在电解过程中析氢过电位比铁阴极低、电催化活性比铁阴极高的阴极。以铁、镍或者其合金为基体材料,经脱脂、喷砂、酸洗等预处理后,用电解(直流电和脉冲镀)、真空喷镀有机物分散等方法将铂、钯、钨、铝、锌、磷、钴、钼、锆、镧等金属或其合金涂(或喷涂)于基体上,经水漂洗、非高温处理涂层后制得。具有氢过电位低等优点,可降低氯碱电解工艺的总能耗。缺点是涂层因受阴极液中杂质铁的毒化易剥离而丧失活性。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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