报道了镁基储氢合金制备方法的研究进展。
Progress in preparation techniques for M-base hydrogen storage alloys is reported.
一种利用储氢合金的冷温藏箱。其包括本体;
The storage container with hydrogen storage alloy includes main body;
用途:主要用作储氢合金粉和镍金属氢化物电池。
Uses: Mainly used for alloy powder for hydrogen storage and used for battery made of Nickel metal hydride.
本文报告了一种方法评估储氢合金电极的循环寿命。
A method to test the cycle life of hydrogen storage alloy electrode was reported.
本文总结了纳米储氢合金颗粒与复合材料的制备方法;
The fabrication methods of HSA nanoparticles and composite HSA are summarized.
研究了粉末粒度对ab5型储氢合金电化学性能的影响。
Effect of the powder size on electrochemistry performance for AB5 hydrogen storage alloy was studied.
储氢合金,合金表面改性方法,电池和碱性二次电池负极。
Hydrogen-absorbing alloy, method of surface modification of the alloy, negative electrode for battery and alkaline secondary battery.
用恒电位阶跃法研究了低温下ab5型储氢合金中的氢扩散行为。
The hydrogen diffusion behavior of AB5-based alloy at low temperature is studied by constant potential step technique.
近年来,我国在稀土储氢合金的研究与应用方面都取得了很大的成绩。
Many great achievements were made in research and application of rare-earth hydrogen storage alloys in the past several years.
本文首先对国内外BCC固溶体型储氢合金的研究进展进行了全面综述。
In this thesis, the research and development of hydrogen storage alloys with BCC vanadium-based solid solution were reviewed first.
储氢合金粉主要用于镍氢电池,我公司该产品的年生产能力为600吨。
Hydrogen storage alloys are mainly used in Nickel-Metal Hydride Batteries and the production scale of the products is 600 tons per year.
本论文的工作集中于储氢合金的研究,重点是关于镁基合金的制备和研究。
This dissertation is focused on the research of the hydrogen storage alloy, and the emphasis of my work is mainly about the preparation and research of magnesium based alloy.
本实用新型涉及一种生产钕铁硼稀土永磁合金材料及稀土储氢合金材料的真空熔炼炉。
The utility model relates to a vacuum melting-refining furnace for producing neodymium, iron, boron and rare earth permanent magnetic alloy material and rare earth hydrogen-storage alloy material.
本文介绍了近快速凝固铸带技术制备低成本储氢合金的工艺、显微组织结构和电化学性能。
A brief introduction of techniques, microstructure and electrochemical properties of low cast hydrogen storage alloys prepared through near-rapid solidification strip cast.
指出采用反应机械合金化法、储氢合金组元调整以及添加催化剂是改善性能最有效的途径。
The paper indicates that adopting reactive mechanical alloying method, adjusting constituents of hydrogen storage alloys a…
首先分别简述了气体雾化法、熔体快淬法和铸带法制备储氢合金的微观组织结构特征和电化学性能。
Firstly, the microstructure and the electrochemical properties of hydrogen storage alloys prepared, respectively, by gas atomization, melt quenching and strip casting were presented.
通过在储氢合金中掺适量的钴系添加剂,可显著提高电池的耐过放能力、合金粉的循环寿命及电极容量。
The over-discharge resist ability of batteries, the cycle life of alloys and the capacity of electrodes can be distinctly improved by mixing appropriate amount of Co additives with alloys.
本论文提出了用电化学的方法在储氢合金电极或储氢合金粉表面包覆镍-非金属非晶态合金的工艺方法。
The electrochemical techniques of encapsulating the amorphous nickel-nonmetal alloy on the surface of hydrogen-storage alloy electrode or hydrogen-storage alloy powder was used in this paper.
借助于XRD、TG - DSC和SEM等技术研究了掺钛对氢化燃烧合成镁镍储氢合金的合成条件及合金性能的影响。
The effect of doping Ti on synthesis of magnesium nickel hydrogen storage alloys through XRD, TG-DSC and SEM was reported.
介绍了采用铝热还原法制备富钒储氢钒镍合金的工艺及其影响因素。
It introduces the craft and its influential factors to the method of developing vanadium nickel alloy with rich vanadium and reserved hydrogen.
该文综述并预测了镁基合金在储氢材料上的应用前景。
The article summarizes and predicts the prospects of magnesium and its alloys used as hydrogen storage materials.
近年由于其优良储氢性能得以被发现,氢化铝钠成为最有前景的络合金属氢化物之一。
More recently, sodium aluminum hydride been considered as one of most promising complex metal hydride, for its excellent performance of hydride storage have been discovered.
总结了目前制备镁基储氢材料所用的主要方法,例如熔炼法、扩散法、机械合金化法、氢化燃烧合成法等。
Also sum up the manufacturing methods of magnesium based hydrogen storage materials, containing melting method, diffusing method, mechanical alloy method, composing by hydrogen burning metho...
分别对合金材料和复合材料的储氢性能进行了系统的阐述,指出现有的技术手段已经能够制备具有优异充放氢性能的镁基储氢材料。
It was proposed that the Mg-based hydrogen storage material of excellent hydriding and dehydriding properties can be prepared by using the present technology. The application state of Mg-base hyd...
分别对合金材料和复合材料的储氢性能进行了系统的阐述,指出现有的技术手段已经能够制备具有优异充放氢性能的镁基储氢材料。
It was proposed that the Mg-based hydrogen storage material of excellent hydriding and dehydriding properties can be prepared by using the present technology. The application state of Mg-base hyd...
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