| 1. | Measurement of discharge capacity of electrolytic capacitors 电解电容器放电容量的测量 |
| 2. | When koh concentration is increased , discharge capacity and internal resistance increase , voltage plateau decreases ( 3 )当在碱液中增大koh浓度时,放电容量升高,内阻升高,电压平台降低。 |
| 3. | The results showed the samples by microwave heating exhibited smaller particles , high specific capacity ( 129 mah ? g - 1 ) 研究表明,微波合成样品的粒度较小,第十周期的放电容量达到了129mah ? g - 1 。 |
| 4. | The discharging capacity of single aluminum / air battery was over 40ah with 4a , and the output power of aluminum / air battery pack was as high as 110w 铝空气单电池,恒流4a放电,放电容量超过40ah ;铝空气电池组的最大输出功率超过110瓦。 |
| 5. | The charging and discharging electrochemistry mechanism of the storage battery is analyzed . the equipment of measuring capacity of storage batteries is developed 分析了蓄电池充、放电过程中电化学反应机理,研制了一套蓄电池充、放电容量测试系统。 |
| 6. | The study shows that limno2 has an ordered layered structure and good electrochemical properties , its 50th specific charge capacity is 65mah / g 研究表明,离子交换法制备的limno2材料具有较好的层状结构和电化学性能,其第50次放电容量为65mah ? g - 1 ( 0 . 1c倍率) 。 |
| 7. | The discharge capacity and voltage of lithium - aluminium anode can be enhanced by adding 0 . 5 % 1 . 5 % ce and the surface quality of the anode can also be improved 在锂铝合金阳极中添加0 . 5 % 1 . 5 % (质量分数)铈,可增大电池的放电容量和电压,改善锂铝合金阳极的表面形貌。 |
| 8. | An adaptive neuro fuzzy inference system modeling approach is employed for the estimation of brc in terms of the state of available capacity of the mh - ni battery powered electric vehicles 把自适应模糊推理系统用于估计蓄电池剩余容量,输入是电池的温度和放电容量,输出是电池的荷电状态。 |
| 9. | The doped material performed well electrochemical property for cycling . the initial discharge capacity of doped material was 165mah / g . after 80 cycles , the capacity loss was about 20 % 使用溶胶凝胶法对层状limno2进行2 % al3 +的掺杂改性,初始放电容量可达165mah / g , 80次循环后衰减约20 % 。 |
| 10. | The results showed that the electroless nickel plating could increase the discharge capacity , 1c discharge properties and cycle stability obviously , and could also improve the activation 结果表明,镀镍能明显提高低钴贮氢合金的放电容量、 1c高倍率放电性能及循环稳定性,对活化性能亦有改善。 |