| 1. | Tungsten and tungsten alloy electrodes for arc welding and cutting
电弧焊接和切割用钨及钨合金焊条 |
| 2. | Aluminum and aluminum alloy electrodes for shielded metal arc welding
保护金属电弧焊用铝和铝合金电极 |
| 3. | Pb - alloy electrodes used in electrolyte for enhanced ozone generation
新型铅合金电极用于电解法制备臭氧 |
| 4. | The effect of charge discharge manner on properties of hydrogen storage alloy electrode
充放电制度对贮氢合金电极性能的影响 |
| 5. | Influence of granularity on the electrochemical properties of hydrogen storage alloy electrode
贮氢合金粉末粒度对其电化学性能的影响 |
| 6. | In addition , carbon nanotubes can improve the activation performances of the hydrogen storage alloy electrodes
此外,掺杂碳纳米管的储氢合金电极的活化性能得到了改善,所需的活化次数大为减少。 |
| 7. | The experiments showed that the electroplated in or zn - in alloy electrode had high hydrogen over - potential and well electrochemical stability
在碱性体系中,镀锌铟合金和镀铟集流体具有较好的电化学稳定性。 |
| 8. | The results of the eis examination indicated that the electrochemical reaction of the snsb alloy electrode was a typical process jointly managed by both electrochemical reaction and diffusion
电化学阻抗分析结果表明,锡锑合金电极过程是典型的电化学和扩散共同控制的特征。 |
| 9. | At first , the effect of carbon nanotubes additives on the electrochemical performances of hydrogen storage alloy electrode was investigated . the results showed that the hydrogen storage capacity of the carbon nanotubes was only 123 . 0mah / g ( cnt )
本文首先研究了掺杂碳纳米管储氢合金的电化学性能,所研究的碳纳米管的电化学储氢容量仅为123 . 0mah g ( cnt ) 。 |
| 10. | When the hydrogen storage alloy electrodes are treated by hydrophobic method , preliminary discharge capacity and voltage plateau are improved , however , preliminary discharge capacity and voltage plateau decline with the increase of hydrophobic concentration
贮氢合金电极在用1 ptfe乳液憎水处理后,初始放电容量、电压平台性能有所改善,但随着浓度的进一步增加,这两种性能反而降低。 |
