Progress in preparation techniques for M-base hydrogen storage alloys is reported.
报道了镁基储氢合金制备方法的研究进展。
Hydrogen storage alloys are important materials for energy, weapon and engineering.
贮氢合金是重要的能源、武器和功能材料。
Hydrogen storage alloys was one kind of the high performance materials developed in recent years.
贮氢合金是近年来开发的一类新型高性能材料。
In this paper a series of RE2MgNi9 hydrogen storage alloys were synthesized by vacuum induction melting method.
用真空熔炼法制备了多种贮氢合金原样,分别经不同温度、时间热处理和保护气氛下球磨处理。
The effect of doping Ti on synthesis of magnesium nickel hydrogen storage alloys through XRD, TG-DSC and SEM was reported.
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 paper indicates that adopting reactive mechanical alloying method, adjusting constituents of hydrogen storage alloys a…
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 designs a manual control system and a flow acquisition system of a device for activating hydrogen storage alloys.
根据储氢瓶活化测试的要求,本文还设计了一套活化装置的控制以及流量采集系统。
Many great achievements were made in research and application of rare-earth hydrogen storage alloys in the past several years.
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。
In this thesis, the research and development of hydrogen storage alloys with BCC vanadium-based solid solution were reviewed first.
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。
The effects of three connection methods of electrode slices on the electrochemical properties of hydrogen storage alloys are reported.
本文报道了三种电极片接线方式对贮氢合金的电化学性能的影响。
Hydrogen storage alloys are mainly used in Nickel-Metal Hydride Batteries and the production scale of the products is 600 tons per year.
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。
Through the ways we discussed, the AB5 type hydrogen storage alloys are lucubrated and the properties of the alloys are further improved.
通过这些途径,可以对ab5型贮氢合金进行深入研究,从而进一步提高合金的性能。
The investigation of microstructure and hydrogen behavior in hydrogen storage alloys is a currently interesting topic in materials science.
贮氢合金材料微观结构及其中氢特性的研究是当前材料科学,尤其是贮氢合金材料研究中的一个热点课题。
The effects of electroless Ni on the particles morphology and the discharge performance of two low-Co hydrogen storage alloys powder were studied.
研究了化学镀镍对两种低钴贮氢合金粉末颗粒形态和放电性能的影响。
The surface composition and morphology of hydrogen storage alloys have an important influence on the electrochemical properties of metal hydride electrodes.
贮氢合金的表面成分和形态对金属氢化物电极的电化学性能具有重大影响。
A brief introduction of techniques, microstructure and electrochemical properties of low cast hydrogen storage alloys prepared through near-rapid solidification strip cast.
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。
The effects of rapid quenching technique parameters on the electrochemical properties and microstructures of the low-Co AB5-type hydrogen storage alloys were investigated in detail.
研究了快淬工艺参数对低钴AB5型贮氢合金的电化学性能及微观结构的影响。
Firstly, the microstructure and the electrochemical properties of hydrogen storage alloys prepared, respectively, by gas atomization, melt quenching and strip casting were presented.
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。
The effects of the direct magnetic field treatment on the microstructure and electrochemical performances of hydrogen storage alloys during their solidification process were studied.
研究了贮氢合金凝固过程中施加直流磁场处理对其组织结构和电化学性能的影响。
The SEM observation considered that the pulverization and oxidation of hydrogen storage alloys during charge discharge cycles was a important factor of the degradation of MH electrodes.
扫描电镜(SEM)观察认为,贮氢合金在充放电过程中的不断粉化和氧化是贮氢电极失效的主要原因。
But after activation, the hydrogen storage capacity and hydriding rates of these alloys have not distinction among all alloys.
但各个球磨时间的合金活化好后总吸氢量和吸氢速率没有多大区别。
A new technique named self propagating high temperature synthesis was proposed to prepare V-based solid solution storage hydrogen alloys.
提出采用自蔓延高温合成法制备钒基固溶体贮氢合金的新工艺。
The phase structure, hydrogen storage performance and electrochemical performance of the alloys were studied by XRD and three-electrode test system.
采用X射线衍射和三电极测试体系研究了合金的相结构、贮氢性能和电化学性能。
The article summarizes and predicts the prospects of magnesium and its alloys used as hydrogen storage materials.
该文综述并预测了镁基合金在储氢材料上的应用前景。
As the key material of nickel metal hydride batteries, rare-earth-based hydrogen storage alloy is one of the few alloys which are still widely used.
作为镍氢电池的关键材料,稀土系贮氢合金是目前为数极少的实用化合金之一。
The hydrogen storage capacity of hydrogen-storage electrode alloys is much higher than that of conventional At_5-type electrode alloys, and hence AB_3-type ele…
稀土镁基AB_3型贮氢合金的贮氢量高于传统的稀土基AB_5型贮氢合金,有望成为新一代的贮氧电极合金材料。
The hydrogen storage capacity of hydrogen-storage electrode alloys is much higher than that of conventional At_5-type electrode alloys, and hence AB_3-type ele…
稀土镁基AB_3型贮氢合金的贮氢量高于传统的稀土基AB_5型贮氢合金,有望成为新一代的贮氧电极合金材料。
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