Composition design, synthesis and hydrogen storage ability of multi-principal-component alloy TiVZrNbTa

Zadorozhnyy M. ¹Shchetinin I. ¹Zheleznyi M. ¹Novikov A. ¹Bazlov A. ¹Milovzorov G. ¹Korol A. ¹Kaloshkin S. ¹Berdonosova E. ²Savvotin I. ²Klyamkin S. ²Gammer C. ³Eckert J. ³Serov M. ⁴Kato H. ⁵Zadorozhnyy V. ¹Tomilin I.¹

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作者信息

1. National University of Science and Technology “MISIS”
2. Department of Chemistry Lomonosov Moscow State University
3. Erich Schmid Institute of Materials Science Austrian Academy of Sciences
4. Moscow Aviation Institute (National Research University)
5. Institute for Materials Research (IMR) Tohoku University
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Abstract

A thermodynamic model was proposed to assess the feasibility of the synthesis of single-phase multi-principal-component alloy. Based on this model, single-phase TiVZrNbTa equiatomic alloys with body centered cubic (BCC) structure were obtained by arc melting (AM), electron beam melting with pendant drop melt extraction (EBM-PDME) and mechanical alloying (MA). The alloys were characterized by powder X-ray diffraction, scanning and transmission electron microscopy, thermal analysis and mechanical testing. The hydrogenation behavior of the synthesized materials was studied by a volumetric method. It was found that for AM and EBM-PDME alloys a complete BCC-to-FCC structure transformation occurs upon hydrogenation, and hydrogen concentration in the hydrides formed reaches 1.5 H/M (1.6 wt%). MA alloy undergoes partial amorphization with maximum hydrogen absorption capacity of 0.9 wt%.

Key words

Arc-melting/Electron beam melting/Hydrogen storage/Mechanical alloying/Multi-principal-component alloys/Pendant drop melt extraction/Single phase/Thermodynamic model

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出版年

2022

Journal of Alloys and Compounds

EISCI

ISSN：0925-8388

被引量12

参考文献量73

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