1) Photo-rechargeable hydrogen storage alloy
光充电贮氢合金
2) photochargeable hydrogen storage alloy
光充电储氢合金电极
3) photocatalytic hydrogen storage alloy
光催化贮氢合金
4) hydrogen storage electrode alloys
贮氢电极合金
1.
Effects of substitution of Nd for La on properties of La-Mg-Ni system A_2B_7-type hydrogen storage electrode alloys;
Nd替代La对La-Mg-Ni系A_2B_7型贮氢电极合金性能的影响
2.
4 hydrogen storage electrode alloys were prepared by cold crucible melting under argon gas atmosphere.
4贮氢电极合金,采用XRD、三电极体系及SEM研究相结构、电化学性能及电极的表面状态。
3.
6) hydrogen storage electrode alloys were prepared by cold crucible levitation melting under argon gas atmosphere.
6)贮氢电极合金,采用FESEM,EDS,XRD,p-c-t测试及三电极电化学性能测试研究合金的相成分、相结构、p-c-t曲线和电化学性能。
5) hydrogen storage alloy electrode
贮氢合金电极
1.
Effects of heat treatment on the performance of hydrogen storage alloy electrode;
热处理对贮氢合金电极性能的影响
2.
The effects of silver additive to La-rich AB5-type hydrogen storage alloy electrodes were investigated using the constant current charge/discharge and pulse-discharge test.
用恒电流充放电和脉冲放电方法研究了含银添加剂对富镧AB5型贮氢合金电极电化学性能的影响。
3.
The surface treatment of hydrogen storage alloy electrode is an effective method to improve its electrochemical performances.
贮氢合金电极的表面处理是改善其电化学性能的有效方法。
6) hydrogen storage electrode alloy
贮氢电极合金
1.
New type TiV-based hydrogen storage electrode alloy;
新型钛钒系贮氢电极合金
2.
6 hydrogen storage electrode alloys prepared by both conventional casting and melt-spinning processes at different solidification rate were studied comparatively.
研究了单辊快淬快速凝固处理对无Co贮氢电极合金MlNi4。
3.
Six series of hydrogen storage electrode alloy RE (NiCoMnTi)5 with a general formula of AαA1-αB5 were prepared where AαA1-α is binary rare earth metal mixture among La, Ce, Pr, Nd, and B is nickel partially substituted by Co, Mn and Ti.
制备了6个系列通式为A_αA_(1-α)B_5的RE(NiCoMnTi)_5贮氢电极合金(其中,A_αA_(1-α)为La,Ce,Pr,Nd 4个元素中任意2个的组合),测定了它们在100次循环中的最大放电容量C_(max)及部分合金的晶胞体积V_(cell),结果表明:C_(max)主要由V_(cell)决定,C_(max)先随V_(cell)的增大而增加,在V_(cell)≈85。
补充资料:钛铁贮氢合金
分子式:
CAS号:
性质:一种性能优良、成本低廉的贮氢材料。它吸氢量大,含氢重量比为1.8%,吸放氢迅速,这些优点对其应用十分有利。不足之处是活化困难,须加热到250℃以上作反复的充氢——抽空操作,另外抗中毒能力差。这些缺点可以通过Mn、Co等合金化加以改善。TiFe合金已在氢的贮存净化、氢压机等领域获得应用。
CAS号:
性质:一种性能优良、成本低廉的贮氢材料。它吸氢量大,含氢重量比为1.8%,吸放氢迅速,这些优点对其应用十分有利。不足之处是活化困难,须加热到250℃以上作反复的充氢——抽空操作,另外抗中毒能力差。这些缺点可以通过Mn、Co等合金化加以改善。TiFe合金已在氢的贮存净化、氢压机等领域获得应用。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条