然后,在猫眼石结构表面用电沉积法镀上一层镍膜,之后把猫眼石蚀刻掉,再经过电解抛光,增加这些镍膜空隙度。
After that, a layer of nickel was electrodeposited on the opal, which was then etched away. The porosity of the nickel layer was then increased using electropolishing.
所有的燃料电池有相同的基本结构,包括一种电解质和两种电极。
All fuel cells have the same basic configuration; an electrolyte and two electrodes.
每个电池元都包括一个正电极和一个负电极,两个电极用一个浸在导电电解液中的隔离器隔开,该电解液允许离子而不是电子在两个电极之间来回传输(译者注:具体参见下面那个电池结构图)。
Each cell consists of a negative electrode and a positive electrode kept apart by a separator soaked in a conductive electrolyte that allows ions, but not electrons, to travel between them.
正负极材料、电解液及其添加剂、电池的结构以及制备工艺条件都对锂离子电池的安全性有重要的影响。
The anode and cathode materials, electrolyte and its additives, structure of battery and manufacture process had important effect on the safety of Li-ion battery.
胶体电池的电解质呈固态,密封结构,凝胶电解液,永不漏液,使电池内每一部位的比重保持一致。
Gel battery electrolyte and solid, sealing structure, gel electrolyte, never leakage, to keep the proportion of each part.
根据我们的研究结果去设计性能更好的电解质,未来的计算模型,将会超越四面体配位结构。
Based on our results, to design better performing electrolytes, future computational models will need to move beyond tetrahedral coordination structures.
针对常规电解设备存在的问题,对阴极和进出液口的结构等进行了改造。
Some problems exist routine electrolysis equipment, so improving on structure of cathode and mouths of inflow or outflow are carried.
研究了染料废水内电解脱色效率与染料结构之间的关系。
The relationship between the decoloration efficiency of the wastewater containing dyes by internal electrolysis and the structure of dyes has been studied.
由于液态有机电解液固定于聚合物网络的微结构中,从而制得表观干态的聚合物锂离子电池。
Owing to the liquid state organic electrolyte is fixed in micro polymer network structure, polymer lithium ion cell in apparent dry state is prepared.
最后,分析讨论了三电极测量方法和新型LAPS结构特色、以及LAPS电解质电导对光电流的影响等。
Finally, this paper analyzed and discussed the testing method of three electrodes, feature of the new LAPS and the infections of conductance of waiting testing electrolyte on photocurrent.
针对碱性腐蚀介质下水电解槽的工作条件,设计了其密封结构。
The sealing structure was designed according to the working conditions of water electric tank in condition of alkaline erosive medium.
研究了低分子量梳状聚合物电解质的合成方法及结构、性能。
The pectination polymer electrolyte was designed and synthesized, which is especially suitable for characterization by ultramicroelectrode.
PEO基聚合物电解质中离子的运动能力与链的结构、离子浓度、温度、增塑剂等因素有关。
The ionic conductivity of PEO-based electrolyte is related to the structure of polymer chain, concentration of ion temperature and plasticizer.
结果表明,陶瓷层的成分和性能与电解液有关,陶瓷层的相结构与电参数有关。
The results indicate that properties, chemical composition and phase contents of ceramic coating was influenced by the kind of electrolytes and electric parameters respectively.
利用X射线衍射方法,研究了304L不锈钢中电解充氢过程和随后时效过程中的氢致奥氏体结构变化和氢致马氏体相变。
Hydrogen induced austenite structure transformation and martensite transformation in 304l stainless steel during hydrogen charging and aging were studied by X-ray diffraction.
中间相石墨体系,结构稳定,与电解液的适配性好,循环寿命长。
Mesophase graphite type, Stable structure, Suitable for more kinds of electrolyte, Long cycle life.
综述了电解海水用金属氧化物涂层阳极的研究现状和发展趋势,以及该阳极的电化学特性与微观组织结构的关系。
The recent status and trend of the development of metal oxide coated anode are reviewed with relationships between its electrochemical properties and microstructure discussed.
通过模拟实验研究了稀土电解槽的电阻常数与其结构参数之间的关系。
Relationship between constant of electric resistance and structure parameter in rare earth electrolysis cell was studied through simulation experiment.
介绍了30dd350电解槽的基本结构,总结了其损坏形式及维修方法。
The paper introduces the basic structure of 30dd350 Electrolyzer, generalizes the ways of its damage and the methods of its maintenance.
通过SEM照片讨论了液相等离子体电解渗透层的结构。
The structure of the plasma electrolytic osmotic layer was discussed based on SEM photo.
阴极倾斜角和极距对导流槽内的电解质流动有一定程度的影响,这为导流槽的结构优化提供了理论依据。
The cathode drained slope and anode cathode distance have some effects on the electrolyte flow. The research will provide theoretical reference for the structure optimization of the drained cells.
超级电容器主要由极化电极、集电极、电解质、隔离膜、引线和封装材料几部分组成,各部分的组成、结构均对其性能有重要的影响。
It consists of polarized electrode, collector, electrolyte, separator, lead and packing material, and its performances are affected by the composition and structure of each component greatly.
介绍了电解质、聚合物和抗絮凝聚合物对结构型重垢液体洗涤剂粘度、稳定性的影响及其作用机理。
The influence of electrolytes, free polymers and deflocculating polymers on reducing viscosity and stabilizing of structured heavy duty liquid detergents and their mechanisms were also introduced.
同一电解液中单脉冲的放电能量是决定涂层生长速率与组织结构的主要因素。
The growth rate and microstructure of the coatings are mainly dependent on discharging energy of a single pulse in the same electrolyte.
相反电荷的聚电解质在溶液中通过静电相互作用自组装形成超薄多层膜,这种膜的结构可实现分子水平上的控制。
The ultrathin multilayer films were built-up by self-assemble of oppositely charged polyelectrolytes in aqueous solution. Its structure can be designed at molecular scale.
本文分别利用聚电解质多层膜的压缩和热压技术两种方法构建了聚合物微结构。
The fabrication of micro-structures on polymer surfaces has been fulfilled via patterned compression of polyelectrolyte multilayers (PEMs) and thermal pressing method (TPM) respectively.
介绍了伍迪电解槽的结构、设计安装特点以及结合扬州农药化工公司自身情况所做的改进工作。
Structure characteristics of Uhde electrolyzer and De Nora electrolyzer, design fixing and the improvement on the basis of the situation of Yangzhou pesticide and chemical Co.
以离子膜电解槽为例,介绍了串级控制系统的形成,分析了串级控制系统的工作过程、结构及特点。
Taking electrobath of hydronium film as an example, this paper introduces the form of cascade control system, and analyzes its working process, structure and characteristics.
论文第三章介绍了铝电解多功能天车精准控制系统的结构、功能和实现技术。
Then in chapter three, Accurate and Exact Aluminum Liquid Siphon System was introduced, with construct, function and realization.
新的超晶格电解质材料内部结构具有更宽的缝隙让氧离子通过,而不必由一个原子传送给另一个原子。
The new superlattice electrolyte material opens wider gaps through which the oxygen ions can pass without having to be handed from atom to atom.
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