Examples of using Cathodes in English and their translations into Chinese
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Cathodes and sections of cathodes of copper.
铜阴极和铜阴极型材.Iron fluorides have more than double the lithium capacity of traditional cobalt ornickel-based cathodes.
We made new cathodes from the regenerated particles and then tested them in batteries built in the lab.
我们从再生的粒子中制造出新的阴极,然后在实验室的电池中进行测试。As battery makers move towards higher nickel-content cathodes, they look for extremely high purity metal.
随着电池制造商向更高镍含量的阴极发展,他们寻找极高纯度的金属。One solution is to cram cathodes with extra lithium ions, allowing them to store more energy in the same amount of space.
The buyers will use thisprepared scrap for the production of such products as billets, cathodes, granules or plates.
购货方将使用这种经过处理的废料生产诸如坯料、阴极、球粒或板材类产品。LIB cells are comprised of four main components- cathodes, anodes, separators and electrolytes- inserted in various container types.
LIB包括四个主要部分--阴极、阳极、分离器和电解质--嵌入各种类型的容器内。Thanks to a further optimization of the microstructure,we are also able to produce arc cathodes made of tungsten carbide.
由于对微观结构的进一步优化,我们还能用碳化钨生产电弧阴极。These cathodes have a high energy density, typically above 900 Wh kg-1, yet they currently also come with significant limitations.
这些阴极具有很高的能量密度,通常在900Whkg-1以上,但它们目前也有很大的局限性。But for some reason,every new charge and discharge cycle slowly strips these lithium-rich cathodes of their voltage and capacity.
但由于某种原因,每一次新的充放电循环都会缓慢地剥夺这些富锂阴极的电压和容量。The MFN duty on cathodes and sections of cathodes of refined copper(HS 740311) is 1% in the United States and 2% in Japan.
美国进口精铜阴极和阴极型材(HS740311)的最惠国关税为1%,日本为2%。You can pretty much use any element in theperiodic table now because we have shown that cathodes don't have to be layered,” said Ceder.
Most lithium ion battery cathodes contain alternating layers of lithium and transition metal oxides- elements like nickel or cobalt combined with oxygen.
大多数锂离子电池的阴极都含有锂和过渡金属氧化物的交替层,如镍或钴与氧结合的元素。
The new process is safer anduses less energy than their previous method in restoring cathodes to their original capacity and cycle performance.
新工艺比以前的方法更安全,使用更少的能量来恢复阴极的原始容量和循环性能。Earlier studies using computational models estimated that magnesium chromium oxide(MgCr2O4)could be a potential option for Mg battery cathodes.
以前使用计算模型的研究预测,镁铬氧化物(MgCr2O4)可能是镁电池阴极的有希望的候选者。For instance, A123's cathodes are made with a low-impedance nanophosphate material that doesn't heat up as readily as common cobalt-based cathodes.
例如,A123的阴极是由一种低阻抗的纳米磷酸盐材料制成的,这种材料不像普通钴基阴极那样容易加热。The researchers focused on one particular material,a model compound for many common fuel cell cathodes called lanthanum strontium cobaltate.
研究人员专注于一种特殊的材料,即用于许多普通燃料电池阴极的模型化合物,称为钴酸镧锶。Nickel Manganese Cobalt(NMC)-based cathodes will increasingly replace Lithium Iron Phosphate(LFP) and Lithium Cobalt Oxide(LCO) cathodes.
镍锰钴(NMC)阴极将越来越多地取代锂铁磷酸盐(LFP)和锂钴氧化物(LCO)阴极。When they measured released oxygen during battery cycling,they saw almost no oxygen escaping from cathodes even at very high voltages.
当研究人员测量电池循环过程中氧气释放情况时发现,即使在非常高的电压下,也几乎没有氧气从阴极中逸出。Most lithium particle battery cathodes contain alternating layers of lithium and transition metal oxides- elements like nickel or cobalt combined with oxygen.
大多数锂离子电池的阴极都含有锂和过渡金属氧化物的交替层,如镍或钴与氧结合的元素。The problem, however, is that cobalt is both finite and expensive,and existing lithium-ion battery cathodes are comprised of more than 40% cobalt.
然而,问题在于钴既有限又昂贵,并且现有的锂离子电池阴极包含超过40%的钴。Lithium-rich transition metal oxide(Li1+XM1-XO2) cathodes have potential for use in Li-ion batteries, powering electronic devices and electric vehicles.
富锂过渡金属氧化物(Li1+XM1-XO2)阴极具有应用于锂离子电池、电子设备和电动汽车的潜力。Previous research using computational models predicted that magnesium chromium oxide(MgCr2O4)could be a promising candidate for Mg battery cathodes.
以前使用计算模型的研究预测,镁铬氧化物(MgCr2O4)可能是镁电池阴极的有希望的候选者。Increasingly sensitive photomultiplier tube cathodes for confocal microscopy and advanced charge-coupled device(CCD) camera systems for widefield microscopy are continually being introduced.
不断推出越来越敏感的光电倍增管阴极共聚焦显微镜和先进的电荷耦合器件(CCD)相机系统广角镜。Previous research using computational models predicted that magnesium chromium oxide(MgCr2O4)could be a promising candidate for Mg battery cathodes.
之前的研究使用计算机模型进行了预测,镁铬氧化物(MgCr2O4)是镁电池阴极的理想候选材料。Most of these failures, however, occurred during the warm-up and cool-down periods,when the tube heaters and cathodes were under the most thermal stress.
然而,这些损坏多数时候发生在预热和冷却时期,在这两个时期,管件加热器和阴极承受着最大的压力。In previous releases, American Manganese has cited industry sources assaying that up to 10% of manufactured lithium-ion battery cathodes are rejected for use.
在之前的版本中,美国锰公司引用行业消息人士的话说,高达10%的制造锂离子电池负极被拒绝使用。
