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1)  capacity of absorption hydrogen
吸氢容量
2)  hydrogen storage capacity
储氢容量
1.
The results show that with La content increasing,LaNi5 and(La,Mg)Ni3 phases are transferred to LaNi3 phase,Mg2Ni phase appears,the cell volume increases,and the hydrogen storage capacity and electrochemical performance are .
5)系列合金,并对其进行了XRD分析和储氢容量及电化学性能测定。
2.
2 such as activation in low temperature, hydrogen storage capacity and pressure-composition-isothenn(P-C-T).
2)合金的低温活化、储氢容量和P-C-T等性能,XRD结果表明添加LaNi_5没有新相的形成,但是FeTi_(1。
3)  hydrogen storage capacity
吸氢量
1.
On the analysis of the relations between the enthalpy of formation, entropy, hydrogen storage capacity and component, bound parameters of Mg(2-x)MxNi (M=Ti, Ag, Al ) alloys, a model related to the enthalpy of formation, entropy, hydrogen storage capacity were presented.
通过对Mg(2-x)MxNi(M=Ti,Ag,Al)储氢合金材料的焓变、熵变、吸氢量与组成和键参数之间关系的分析,建立了焓变、熵变和吸氢量的半经验数学模型,得出影响焓变、熵变、平衡氢压和吸氢量的主要因素及其显著性的大小。
4)  absorbed hydrogen quantity
吸氢量
1.
The absorbed hydrogen quantity in liquid aluminum alloy and the porosity area ratio on test block increase with raising of the .
基于 Sieverts定律 ,研制了检测液态铝合金吸氢量的计算机辅助实验系统 。
2.
Experimentalresults show that the liquid temperature and the time contacting the liquid with water vapour in atmosphereare two important factors, which affect the absorbed hydrogen quantity in liquid aluminum alloy, and theporosity area r.
根据Sieverts定律,研制了检测液态Al合金吸氢量的计算机辅助实验系统,应用该系统实验研究了国际ZL101Al合金液态下的吸氢特性,实验结果表明,融体温度和铝液与水蒸气接触时间是决定铝液吸氢量的关键因素,并且试块上气孔面积率随两因素的增强而急剧增加,实验系统测量循环时间为70s,测量温差小于0。
5)  hydrogen storage capacities
吸放氢量
1.
4,the lattice parameters increase and the maximum hydrogen storage capacities,efficient hydrogen storage capacities and the desorption plateau pressure of the alloys decrease,while flatness of the des.
4,合金的晶格常数变大,放氢平台压力、吸放氢量降低,但是放氢平台变得平坦。
6)  adsorption capacity
吸附容量
1.
Investigation of treatment of ammonia-nitrogen wastewater with modified Chengde zeolite and its adsorption capacity;
承德沸石改性处理氨氮废水及其吸附容量的研究
2.
Study on Cr(Ⅵ) adsorption capacity of specific sludge;
特定污泥对铬(Ⅵ)的吸附容量研究
3.
Study on adsorption capacity of Anji montmorillonite for antibacterial metal ions;
安吉蒙脱石对抗菌金属离子的吸附容量研究
补充资料:内吸除(见单晶片的吸除技术)


内吸除(见单晶片的吸除技术)
internal gettering

内吸除internal gettering见单晶片的吸除技术。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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