这种电极扮演着两种角色:阳极和阴极,Cui说他的团队正在用原材料的元素制作一个阳极同时也在致力于开发电池的原型。
The electrode made so far acts as a cathode. Cui says his team is tuning the chemistry of the material to make an anode and is working on making prototype batteries.
因此每次淡水中的航行之后都要检查锌、铝阳极,这是很重要的,如果需要的话要清理或者更换阳极。
It is therefore very important to check Zinc and Aluminum anodes after any trips into fresh water and if necessary clean off or change the anodes.
阳极这种钝性的后果就是阳极粘合系统中接下去大多数的阳极项目都会开始消耗自己,这当然是很严重的。
The consequences of this passivity of the anode are that the next most anodic item within the anode bonding system will start to sacrifice itself which could of course be very serious.
而大尺寸石墨烯在性能方面之所以起到关键性的作用,是因为大尺寸石墨烯通过改善阳极材料的完整性,为纳米阳极材料提供了一个高循环稳定性的环境。
The large size of the graphene plays a key role in the performance because a larger size provides a higher cycling stability of the nanosized anode materials by improving their mechanical integrity.
阳极活化剂含量不足时阳极溶解不正常﹐主盐的含量下降较快﹐影响镀液的稳定。
The anode activator content is insufficient an anodic dissolution is not normal, Lord of the salt levels in the stability of solution, influence faster.
铝合金是一种理想的阳极材料,在化学电源和牺牲阳极方面已得到越来越广泛的应用。
Al alloy anode is an ideal metal material and is widely used in batter and sacrifice anode.
正是由于这种保护效应,阳极的容量即使在循环200次后仍然保全的很好,相反,若是使用有缺陷的石墨烯层,阳极容量将会随着循环进行急速降低。
Because of this protective effect, the anode's capacity is preserved even after 200 cycles, whereas anodes with an imperfect graphene layer rapidly decrease with cycling.
预焙阳极铝电解槽用炭素阳极的质量对铝电解生产的技术经济指标具有重要影响。
Carbon anode quality for aluminium electrolysis pot With pre-baking anodes has important effect on technical and economic indexes in aluminium electrolysis production.
为使铅阳极板厚薄均匀,提出了动态失重法实现铅阳极板定量浇铸的方法,提高了铅阳极板的浇铸精度。
To lead anode plate thickness uniformity, we proposed the dynamic lost heavy method realization lead anode plate casting method. It increased the precision of casting the lead anode plate.
介绍了牺牲阳极材料的选择、使用条件以及牺牲阳极保护的计算方法。
Then it introduced the selection of sacrifice anode materials, application conditions and the protective calculation methods.
阳极沉积阶段是在阳极表面形成团絮状的沉积氧化膜及氧化膜不断扩展的过程;
In the first stage of anodic deposition, the flocculent oxidation film deposits and extends on the surface of magnesium alloy.
铝电解生产中,碳素阳极两组分(石油焦和沥青结焦)的活性差异带来阳极的选择性氧化,是造成碳素阳极过量消耗的主要原因之一。
Selective oxidation of carbon anode in aluminum electrolysis caused by reactivity difference between pitch coke and petroleum coke is one of the main causes for excess carbon consumption.
模拟实际工业生产中采用的敞开环式阳极焙烧炉炉室结构,设计了一台小型、简易的实验用阳极焙烧炉。
A small, simple experimental anode baking furnace is designed by simulating the structure of open ring-type horizontal baking furnace used in industrial production.
涂层不仅在不同的温度下都能对炭素阳极起到较强的保护作用,而且还能起到提高炭素阳极初始剧烈氧化温度点的作用。
This coating not only can play a strong role on protecting carbon at different temperatures, but also increase the temperature point of initial acute oxidation on the carbon anode surface.
本文研究了电刷镀铁镀液存在的主要问题,可溶性阳极和不溶性阳极对电刷镀铁不同类型镀液氧化的影响及原因。
The major problems of brush plating bath and the effect of soluble and non-soluble positive pole on various brush plating baths in iron plating are discussed.
本热水器采用金属镁阳极棒,有利于延长内胆的使用寿命。无论什么原因拆卸这种阳极棒,都使得本热水器的质量保证无效。
Magnesium anode is used to extend tank life. Removal of this anode for any purpose will nullify the warranty.
重点介绍了阴极保护的具体做法,一种是以钛基阳极作为辅助阳极的外加电流法,另一种是采用锌板阳极的牺牲阳极法。
Specific cathodic protection methods, including titanium based anode for impressed current system and Zn sheet anode for sacrificial anode system, are introduced.
采用锌阳极和铝阳极的防止腐蚀方法虽能防止铬钼钢腐蚀,但对其裂纹的扩展起明显的加速作用。
The Zinc and Aluminum anode protector can prevent the Cr-Mo steel from corrosion. However, it has the obvious effect of accelerating the crack propagation.
钌钛阳极的机理研究必将促进其他组分氧化物阳极的机理研究和改进。
The study on the mechanism of ruthenium-titanium anode would surely prompt the mechanism study and improvement on other oxide anodes.
材用阳极电泳时,由于通电时的阳极反应从被涂工件上溶下的金属离子常常包含在漆膜中,。
With anodic electrodeposition, metallic ions from the part being coated often become included in the deposited film. This condition results from anode reactions when current is applied.
阳极袋:用棉布或化纤织物制成的套在阳极上,以防止阳极泥渣进入溶液用的袋子。
The anode bag with cotton cloth or chemical fiber fabric: made in the set of anode in the, in order to prevent the anode slime slag in the bag of go into solution.
辅助阳极:除了在电镀中正常需用的阳极以外,为了改善被镀制件表面上的电流分布而使用的附加阳极。
Auxiliary anodes: in addition to the normal in electroplating need outside anode, and to improve the product plated on the surface of the current distribution and use additional anode.
国内早期开发出来的带状阳极是镁阳极,由于镁阳极的效率低、寿命短,使其使用受到限制。
In China, the early stage developed ribbon anode is Magnesium anode but its application is limited due to its low efficiency and short life.
通过对阳极扩散层和催化剂层的疏水处理,降低了阳极产生的CO2导致的催化活性比表面积损失,有效地提高了电池性能。
The decrease of active surface area in the anode caused by CO2 accumulation is reduced through treating the diffusion layer and catalyst layer with PTFE, resulting in increased DMFC performance.
在焙烧过程中,竖装阳极出现爪孔缺陷的现象是导致阳极生产废品率增多及成本居高不下的一个很重要原因。
The phenomenon that the crack defect at jaw hole during baking process of carbon anode vertically charged in baker causes the defective index of carbon anode rise.
提出了适合大庆地区的套管防腐技术—手镯阳极套管防腐技术,通过室内模拟实验确定手镯式阳极的最佳组合方式。
Corresponding to the distribution of oil-water wells in Daqing Oil Field, for which an anticorrosion technology by means of the so called bracelet anode is proposed.
结果表明:转鼓阳极的机械力作用可以缓和阳极钝化,提高硬质合金废料电解的电流效率。
The results show that the anode passivation can be decreased through the mechanical force of the drum anode, and the current efficiency can be improved.
在传统锌基或铝基牺牲阳极的外面包覆一薄层镁基牺牲阳极制备成一种比较新颖的牺牲阳极——复合牺牲阳极。
By covering a thin layer of Mg anode onto the surface of traditional Zn anode orAl anode, a new kind of sacrificial anode-composite sacrificial anode was developed.
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.
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.
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