放电平台的英文

• discharge plateau

• "放电"英文翻译    discharge; electro-discharge ...
• "平台"英文翻译    terrace; platform
• "沉浸式发电平台" 英文翻译 :    submerged pour platform
• "电平" 英文翻译 :    electrical level; level
• "放电" 英文翻译 :    [物理学] (electric) discharge; electro-discharge; discharging 尖端放电 point discharge; 火花放电 spark discharge
• "平台" 英文翻译 :    terrace; [采矿工程] platform◇平台输送机 platform conveyor; 平台仪 plane-table; 平台印刷机 flatbed press
• "放电灯；放电管" 英文翻译 :    discharge lamp
• "平台；露天平台" 英文翻译 :    open terrace
• "（电平）余量" 英文翻译 :    margin
• "白电平" 英文翻译 :    image white; white level
• "充电平" 英文翻译 :    chargin level
• "低电平" 英文翻译 :    low level
• "地电平" 英文翻译 :    earth level
• "电平表" 英文翻译 :    db meter; decibelmetre; electric level meter; levelmeter; lm level meter; tms transmission measurement set; tms transmission mesurement set
• "电平差" 英文翻译 :    difference of level; level difference
• "电平秤" 英文翻译 :    electric balance
• "电平第" 英文翻译 :    level adjustment; level monitoring
• "电平衡" 英文翻译 :    electric balance; electric equilibrium; electrical balance; electrical equilibrium; electrobalance
• "电平计" 英文翻译 :    level meter
• "电平图" 英文翻译 :    hypsogram; level diagram
• "多电平" 英文翻译 :    multilevel
• "负电平" 英文翻译 :    negative level
• "高电平" 英文翻译 :    high level; up level
• "过电平" 英文翻译 :    over-level
• "黑电平" 英文翻译 :    baack level; black level

• Cmp battery uses the imported , original and high - capacity cell , after full charge of the battery , the using time is longer than the original , and the platform of discharge is high
  Cmp电池采用进口原装高容量电芯，电池满充电后使用时间比原配电池时间长，放电平台高。
• Combined with development of the products , the research emphasis in this paper is focus on the studies of the high - rate discharging performance at different temperature . 1 . in the research of the discharge performance with high rate , the results of different effects including thickness of positive electrode , materials of hydrogen storage alloy , concentration of the electrolyte and separators
  论文在实现研究目标的过程中，结合产品的研制，重点对电池的高倍率放电性能和温度性能进行了研究：一、在提高电池大电流放电性能的研究中，比较了不同正极板厚度、不同贮氢合金材料、不同浓度电解液及不同材料隔膜等对电池大电流放电平台的影响，并从电极反应动力学和多孔电极的角度分析了极板厚度对电池高倍率放电的影响。
• The test results of sub - c type showed that middle voltage is higher with 50 u m alloy particle , la - rich alloy has perfect performance at high rate , ce - rich alloy is excellent at high rate and lower temperature , low co alloy is good to decreasing middle voltage except the less recycle life . experiments about the electrolyte showe d that the performance is optimized with contents : koh 78 % , naoh 20 % , lioh 2 % and density 1 . 300 g / cm3
  对贮氢合金材料粒度和成份进行了粒度分布测试、成分分析和xrd扫描，并将材料制备成sc型电池进行大电流测试，结果显示，合金粒度在50 m时，电池放电平台高，富镧合金的大电流性能好，富铈合金有利于电池低温高倍率放电性能，合金中钴含量减少虽对电池的放电平台有利，但循环寿命短。
• The gplb exhibits good discharge performance with discharge curve declining slowly , and the average discharge voltage is 3 . 7v . it also has good rate charge and discharge performance , whose discharge capacity at 2 . 0c is over 90 % of that at 0 . 2c . the cycle performance at 0 . 5c discharge rate is very good but bad at high discharge rate ( 1 . 0c )
  该电池具有良好的放电平台，放电曲线平缓，平均放电电压为3 . 7v ；倍率充放电性能良好， 2 . 0c放电容量为0 . 2c放电容量的90以上；电池的低倍率放电( 0 . 5c )循环性能良好，但高倍率( 1 . 0c )循环性能不太好，电池的低温性能也有待提高。
• But the comprehensive properties were improved remarkably . with the addition of carbon nanotubes , the polarization of charging process decreased , the plateau of discharge became flatter and the migration of potential of peaks value of cyclic voltemmograms reduced . for the other hand , the exchange current increased , ohm resistance and electrochemical reaction resistance of the electrodes decreased , the diffusion resistance of hydrogen and the resistance of adsorption decreased , too
  掺入碳纳米管对储氢合金电极的容量影响较小，但其电化学性能却有较大的改善，主要体现在：充电的极化减小，放电平台更加平稳、循环伏安曲线的峰值电位随扫描速度增大的迁移量减小，交换电流密度增大，电极的欧姆电阻、电化学反应、扩散电阻和吸附电阻均减小。
• The results shows : under high - rate discharge conditions , the batteries with cnts added in the positive electrodes exhibited much better cycling stability , higher discharge voltage and high - rate capability . the increase in internal resistance of the batteries with cnts was lower than that of the batteries without cnts during charge - discharge cycles . the addition of 0 . 5 wt . %
  结果表明：在高倍率放电的条件下，正极中添加少量cnts的ni mh电池具有更好的循环稳定性、更高的放电平台以及更好的高倍率性能；正极中添加少量cnts制成的mh ni电池在高倍率放电的循环过程中内阻升高较小；正极添加0 . 5wt . cnts的电池具有理想的高倍率性能和综合性能，过多的加入cnts无益于电池性能的提高。
• Too much cnts contributed no effect in the improvement of overall performance of the batteries . the batteries with nano - scale coo shows better active properties , the addition of nano - scale coo further the conductivity of the nickel electrode , thus lower the internal resistance of the batteries , higher discharge voltages are achieved accordingly . for the formation of the better conductive net of coooh , the effectivity of discharge rise , that contributes positive effect to the high rate capability of the batteries
  浙江人学硕十学位论文摘要正极添加纳米coo的ni / mh电池具有较好的活化性能，纳米coo更好地增强了镍正极的导电性，进一步减小了电池的内阻;正极添加纳米coo的ni / mh电池还具有较高的放电平台;由于纳米coo的纳米结构，以及相对于普通c00更大的比表面积，会在碱液中溶解形成更均匀致密的co0oh导电网络，从而提高了放电效率，对电池的高倍率性能也有积极的影响。
• When httmax > 2100 , the graphite crystallites grow rapidly , and the charging - discharging capacities of the samples increase , too . the mechanism of storing lithium - ions convert s to the intercalation of the lithium ions into the layers of graphite crystallites . the charging - discharging curves of the samples look like the letter " u " and have low potential flat plateaus
  Htt _ ( max ) 2100时，石墨微晶迅速成长，充、放电容量迅速增大，充、放电曲线为“ u ”字形，充、放电平台低而平稳，表现出典型的“石墨微晶层间嵌锂”机制。