electrode capacity
英 [ɪˈlektrəʊd kəˈpæsəti]
美 [ɪˈlektroʊd kəˈpæsəti]
电极电容
双语例句
- Determination of solid diffusion coefficient of insertion-host electrode materials based on capacity parameter;
根据拟稳态一维扩散原理,建立了气相扩散系数的测定装置。 - As one of the important electrode parameters differential capacity is more suitable for investigating electrode surface state and some electrochemical processes.
微分电容作为电极重要参数之一,它的测量对于揭示电极表面状态和某些电化学反应过程极为有利。 - Because of its big specific surface area, nanophase materials can minish electrode polarization, improve battery capacity.
纳米级电极材料由于比表面积大,可减小电极极化,提高电池容量; - The spherical nano-scale Ni ( OH) 2 compound electrode is propitious to improve electrode capacity and reduce electrochemical reaction resistance than flake nano-scale Ni ( OH) 2 compound electrode.
球形纳米Ni(OH)2较片状纳米Ni(OH)2更有利于提高电极容量,降低电化学反应电阻。 - G-1. In the process of charge-discharge cycle test, the main reason of the electrode capacity decay is that Mg may become Mg ( OH) 2 on the surface of alloys.
g-1.在充放电循环过程中,Mg在合金表面形成了Mg(OH)2是合金电极衰减的主要原因。 - Oscillographic Potentiometric Titration on Membrane Electrode by Parallel Connection Capacity Method and Controlled Current Method
膜电极上并联电容和控制电流示波电位滴定法 - Study on electrode paste for high capacity submerged arc furnace
大容量矿热炉用电极糊的研制 - The express formula for power density of pitch circle and theoretic and empiric formula of electrode current earring capacity on electric smelting furnace are introduced. A approach to increase pitch circle power density and electrode current density are carried out.
介绍了矿热炉极心圆功率密度的表示公式和电极载流能力的理论公式及经验公式,对提高极心圆功率密度和电极电流密度进行了探讨。 - The effect of technology factors such as composition of negative electrode, capacity ratio of positive to negative electrodes, sealed formation method and electrolytes component on performances of NiCd batteries were introduced in this paper.
概述了直封镉镍电池生产中,工艺因素如负极配比、正、负极容量比、直封化成方式及电液组成和比重对产品性能的影响。 - In addition, the composition and texture of SEI film of lithium electrode, the influence of charge-discharge current density on the performance of lithium electrode, and its capacity fade mechanisms in DN based electrolyte were also reviewed particularly.
最后详尽论述了在目前最佳电解液体系中,锂电极SEI膜的组成、充放电电流密度对其性能的影响以及容量衰减机制。 - The nickel electrode manufactured by the new process has advantages over the nickel electrode manufactured by the vacuum chemical impregnation in the active material utilization, electrode capacity retention and charge-discharge cycle life.
该新工艺制造的镍电极其活性物质利用率、电极容量保持能力和充放电循环工作寿命均优于真空化学浸渍的镍电极。 - Addition of nickel powder as a conductive agent into the positive electrode was beneficial to the capacity recovery after storage.
如于正极中加入镍粉作导电剂,便能在一定程度上减缓这种影响,改善电池的储存性能。 - The results show that the copper-microencapsulated hydrogen-storage alloy electrode has better performances in capacity, high-rate discharge, self-discharge and cycle life.
实验结果表明,表面微包覆铜贮氢电极在放电容量、高倍率放电、自放电和循环寿命性能方面均有明显改进。 - The Application Research of Polymer Electrode with High Capacity Used in Secondary Lithium Batteries
大容量聚合物电极材料在二次锂电池中的应用研究 - The low temperature characteristics of Ni MH batteries can be modified by decreasing the thickness of negative electrode and increasing its charge state capacity.
通过减薄负极的厚度和提高负极的充电态容量可提高MHNi电池的低温性能。 - After heat treatment of the electrode, reversible capacity attains as high as 260mAh · g~ (-1) in the 30th cycles.
电极片热处理后30次循环后其可逆容量可达260mAh·g~(-1)。 - Pr is useful for keeping the high discharge capacity of the hydrogen storage alloy electrode ( The discharge capacity is 290 mAh/ g when its content is 0.2% ( mole fraction)), while Ce is harmful.
镨对保持储氢合金电极的高放电容量有利,当含0.2%(摩尔分数)时放电容量达290mA·h/g,铈则相反; - The adsorptive property of 4A zeolite to fluorine ion was measured by ion selective electrode method, adsorption capacity can reach 8 mg/ g ( zeolite), it can been controlled through changing the condition;
利用离子电极法测量合成的4A分子筛对氟离子的吸附效果,其吸附能力可达8mg/g,改变条件可调节吸附、释放适量氟; - The button electrode based on capacity coupling is a kind of new Beam Position Monitor to Linear Induction Accelerator.
对于直线感应加速器的束位置探测,钮扣电极这种电容耦合型探测器是一种新的束流诊断手段。 - Although nonionic surfactant Tween-20 has activation effect on zinc electrode, it has little influence on corrosion and discharge capacity. Zinc electrode has much higher discharge capacity in ST compound electrolyte than in singleness SDBS or Tween-20 electrolyte.
非离子表面活性剂Tween-20虽有活化阳极的效果,但对锌电极腐蚀和钝化过程的抑制及放电容量的提高无明显作用。 - New electrode materials and electrolytes with high capacity, low cost, non-toxicity, and safety are developed.
新的电极材料及电解质材料不断开发出来,它们具有容量大、价格低、无环境污染、使用安全等优点。 - The effect of parameters such as preparing process of positive and negative electrode, capacity ratio of positive and negative electrode, electrolyte, sealant, etc. is studied. The basic processing parameters of bipolar Ni/ MH battery are specified.
研究了正负电极制备工艺、容量配比、电解液、密封胶等参数对电池性能的影响,并且确定了双极性MH/Ni电池制作的基本工艺参数。 - Search for electrode materials with large capacity and long cycle life is a key for developing higher performance lithium-ion batteries.
锂离子电池性能的改善主要取决于嵌锂电极材料能量密度和循环寿命的提高。 - It was found that the bare gold electrode possessed higher adsorption capacity.
结果发现,裸金电极对Fc-金纳米具有较高的吸附容量。 - The discharge test with different rate showed that Bir-Co10% electrode had a better discharge capacity at high current density, because of its large surface area. 6.
不同倍率的放电测试表明,由于其较大的比表面积,在高电流密度下也展示了较好的放电容量。 - For the Cu2O/ Ag composite film electrode, the initial discharge capacity is 390mAh/ g, and then declined. On the subsequent cycles, however, the reversible capacity rised to 320mAh/ g after 30 cycles.
Cu2O/Ag复合薄膜电极,首次放电容量达到390mAh/g左右,之后循环容量并有所下降,但是从十几个循环后,循环容量却开始上升,30次循环后上升到320mAh/g左右。 - Analysis, coated electrodes to improve the life of resistance spot welding of galvanized steel is coated to improve the main mechanism of resistance to plastic deformation of the electrode capacity and limits of zinc and metallurgical reaction between the electrodes.
分析认为,涂层电极提高镀锌钢板电阻点焊寿命的机理主要是涂层提高了电极的抗塑性变形能力和限制了锌和电极间的冶金反应。 - However, in the study of the development of lithium-ion battery anode material, the existing limited capacity of the anode electrode, and the new anode electrode and there is significant capacity fading in the process of charging and discharging.
然而在锂离子电池负极材料开发的相关研究中,现有负极电极容量有限,而新型负极电极又存在充放电过程中大幅度的容量衰减的情况。