Phase structure and electrochemical performances of Co-free La–Mg–Ni-based alloys with Nd/Sm partial substitution for La

In this paper, the Co-free hydrogen storage alloys with the nominal compositions of La0.75R0.05Mg0.20Ni3.40Al0.10(R = La, Nd and Sm) were prepared by induction melting, and then the phase structure and electrochemical properties of these alloys were comparatively investigated. It is found that the a...

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Published inRare metals Vol. 33; no. 6; pp. 674 - 680
Main Authors Liu, Zhi-Ping, Yang, Shu-Qin, Li, Yuan, Liu, Jing-Jing, Ma, Ming-Zhen, Han, Shu-Min
Format Journal Article
LanguageEnglish
Published Springer Berlin Heidelberg Nonferrous Metals Society of China 01.12.2014
Springer Nature B.V
Subjects
Alloys
Biomaterials
Chemistry and Materials Science
Current density
Discharge
Electrodes
Energy
Formations
Intermetallic compounds
Materials Engineering
Materials Science
Metallic Materials
Nanoscale Science and Technology
Neodymium
Physical Chemistry
Samarium base alloys
Solid phases
交换电流密度
无钴
电化学动力学
电化学性能
相结构
贮氢合金
镧系
高倍率放电性能
La–Mg–Ni-based alloys
Structure characteristics
Element composition
Electrochemical kinetics
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Summary:In this paper, the Co-free hydrogen storage alloys with the nominal compositions of La0.75R0.05Mg0.20Ni3.40Al0.10(R = La, Nd and Sm) were prepared by induction melting, and then the phase structure and electrochemical properties of these alloys were comparatively investigated. It is found that the alloys mainly consist of(La, Mg)2Ni7phase, La Ni5 phase and(La, Mg)5Ni19phase.Refinement results further show that Nd substitution for La remarkably promotes the formation of La Ni5 phase, while Sm is beneficial for the formation of(La, Mg)5Ni19phase.At discharge current density of 1,875 m A g-1, the highrate dischargeability(HRD) of alloy electrodes increases by 13.9 % and 6.5 % with La substituted by Nd and Sm,respectively. The electrochemical kinetic measurements reveal that the exchange current density(I0), charge transfer resistance(R) and hydrogen diffusion coefficient(D) for the alloy electrode are all facilitated with Nd and Sm partial substitution for La. Subsequently, a linear correlation between the HRD1875 and the corresponding I0/D is found.
Bibliography:La–Mg–Ni-based alloys;Element composition;Structure characteristics;Electrochemical kinetics
In this paper, the Co-free hydrogen storage alloys with the nominal compositions of La0.75R0.05Mg0.20Ni3.40Al0.10(R = La, Nd and Sm) were prepared by induction melting, and then the phase structure and electrochemical properties of these alloys were comparatively investigated. It is found that the alloys mainly consist of(La, Mg)2Ni7phase, La Ni5 phase and(La, Mg)5Ni19phase.Refinement results further show that Nd substitution for La remarkably promotes the formation of La Ni5 phase, while Sm is beneficial for the formation of(La, Mg)5Ni19phase.At discharge current density of 1,875 m A g-1, the highrate dischargeability(HRD) of alloy electrodes increases by 13.9 % and 6.5 % with La substituted by Nd and Sm,respectively. The electrochemical kinetic measurements reveal that the exchange current density(I0), charge transfer resistance(R) and hydrogen diffusion coefficient(D) for the alloy electrode are all facilitated with Nd and Sm partial substitution for La. Subsequently, a linear correlation between the HRD1875 and the corresponding I0/D is found.
11-2112/TF
ObjectType-Article-1
SourceType-Scholarly Journals-1
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ISSN:1001-0521
1867-7185
DOI:10.1007/s12598-014-0401-5