Chinese translation for "放电电位"
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- discharge potential
discharge voltage potential, discharge
Related Translations:
自发性放电: spontaneity discharge 高压放电: electrion; effluve◇高压放电分选 spray discharge; 高压放电合成 voltolizing 辅助放电: auxiliary discharge 射频放电: radio frequency dischargeradio-frequency discharge 潘宁放电: penning dischargepig discharge
- Example Sentences:
| 1. | Moreover , the impedance values decreased , the reactions became more easily , and the charge and discharge performance became better as the discharging potential decreased and the reactions also became easily as the cycling times increased 且随着放电电位的降低,阻抗值下降,反应变的越容易,充放电性能越好,随着循环次数的进行,反应会变得容易。 | | 2. | The charging - discharging curves look like the letter " v " and have no flat plateaus due to the different sizes of the micropores . increasing the httmax , the micropores in ant samples become fewer and smaller , therefore the charging - discharging capacities decrease . when httmax = 2100 , the charging - discharging capacity reaches the minimum since the number of the micropores reaches the minimum and the size of them become very small , the number of graphite crystallite in ant samples is still few and the size of them is also small 在htt _ ( max ) 2100的范围内, ant试样属于乱层结构,石墨微晶尚未出现或数量很少,贮锂机制为“孔隙贮锂” ,由于孔隙的大小不一,插锂时克服阻力所需的电位也不同,因此充、放电曲线呈“ v ”字形,无平稳的充、放电电位平台;随着htt _ ( max )的增大,试样中孔隙逐渐变小、变少,充、放电容量也逐渐变小。 | | 3. | The mechanism of storing lithium - ions was to store lithium ions in the micropores of the samples . since the micropores which formed in the process of liquid phase carbonization had different sizes , the smaller the micropores , the lower the potential to overcome the resistance for inserting lithium ions . the charging - discharging curves looked like the letter " v " and had no flat plateaus , the charging - discharging capacities were high but faded rapidly Htt _ ( max ) = 2000以前,石墨微晶尚未出现,贮锂机制为“微孔贮锂” ;由于微孔的大小不同,插锂时克服阻力所需的电位也不同,微孔愈小,所需电位愈低,因此充、放电曲线为“ v ”字形,无充、放电电位平台,充、放电容量高,但容量衰减快;随着htt _ ( max )的增大,液相炭化过程中所形成的微孔逐渐变小、变少,因此充、放电容量也逐渐变小。 | | 4. | Nano - sacle coo is apt to dissolve in the electrode homogeneously , and better conductive net of coooh come into being , thus contribute a lot to the procedure of the activation . the electrode with nano - scale coo and cnts shows higher discharge voltage and higher discharge capacity . nano - scale additives can improve the specific capacity of the electrode , the volume specific capacity and the mass specific capacity of the electrode with nano - scale coo are 784mah / cm3 and 224mah / g , respectively 结果表明:添加剂为纳米coo的电极的活化性能最好,纳米coo相对于普通coo能更加均匀的分布在镍电极内,也更易溶解、反应生成coooh导电网路,从而加快了镍电极的活化进程;添加纳米coo和添加cnts的极片具有较高的放电电位和较大的放电容量,纳米添加剂能有效提高镍正极活性物质的放电效率和利用率;纳米添加剂可以有效地提高镍正极片的容量密度,其中添加纳米coo的极片体积容量密度达到784mah cm ~ 3 ,质量容量密度达到224mah g ;添加cnts的极片体积容量密度达到778mah cm ~ 3 ,质量容量密度达到223mah g 。 |
- Similar Words:
- "放电电流噪声" Chinese translation, "放电电路" Chinese translation, "放电电容器" Chinese translation, "放电电渗处理" Chinese translation, "放电电势" Chinese translation, "放电电位差" Chinese translation, "放电电压" Chinese translation, "放电电压 电霖性曲线" Chinese translation, "放电电压 时间曲线" Chinese translation, "放电电压电流特性曲线" Chinese translation
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