| 1. | Hydrogen absorption properties of rare earth hydride slurry
稀土储氢合金浆液的吸氢性能 |
| 2. | Method for determining the hydriding rate of hydrogen - absorbing alloys
吸氢合金氢化率的测量方法 |
| 3. | Method of determining the pct relations of hydrogen - absorbing alloys
吸氢合金的pct关系曲线的测定方法 |
| 4. | Method for measuring the heat of hydriding reaction of hydrogen absorbing alloys
吸氢合金氢化反应热的测量方法 |
| 5. | Effect of different treatments on hydrogen uptake of bamboo - like carbon nanotubes
不同处理方式对竹节状碳纳米管吸氢量的影响。 |
| 6. | The sem morphology showed that hydrogen reaction was found during the process of nickel plating
Sem分析表明,化学镀镍过程中伴有吸氢反应。 |
| 7. | Method for assessing the characteristics of cyclic hydrogen absorption desorption of hydrogen absorbing alloys
吸氢合金氢循环吸收解吸特性的评估方法 |
| 8. | The hydriding results show that the substitution of ni by cr could decrease the absorption temperature and improve the kinetics of hydriding
Cr的添加降低了mg - ni - cr三元合金的吸放氢温度,改善了纳米晶合金的吸氢动力学性能。 |
| 9. | In this basis : the following works have been carried out : firstly , single - walled carbon nanotubes ( swnts ) and multi - walled ones were selected for the hydrogen storage experiments
研究认为,碳纳米管的吸放氢过程基本上是物理过程。吸氢量受温度压力影响很大。高压、低温有利储氢。 |
| 10. | Kno3 solutions ( 0 . 1 mol / l and 1 . 0 mol / l ) were used to dope carbon nanotubes . the results show that mwnts annealed in nitrogen adsorbed more hydrogen than those annealed in air
室温下纳米碳管吸附的氢气不能完全脱附,说明纳米碳管的吸氢方式包括物理吸附和化学吸附,其中化学吸附比较难于释放。 |
