Physical Properties of Ti45Zr38Fe17 Alloy and Its Amorphous Hydride

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abstract

The alloys based on Ti-Zr are considered an excellent candidate for hydrogen storage applications. In this communication, we report the results of Fe substitution for Ni in the well-known Ti45Zr38Ni17 compound. The parent and related compounds can be obtained as amorphous powders, transforming into the quasicrystalline phase (i-phase) after annealing. The amorphous Ti45Zr38Fe17 phase is transformed into the icosahedral quasicrystalline state, and it is a quasi-continuous process. The i-phase is well-developed close to 500 degrees C. At higher temperatures, the quasicrystal structure transforms into the other phase: the w-phase (an approximant to the crystalline phase) and another crystal phase with a small addition of the FeZr3 and the Fe-2(ZrTi)(3). The amorphous Ti45Zr38Fe17 phases can be hydrogenated while maintaining the amorphous nature, which constitutes another very fascinating research field for our group. The investigated alloy shows a good capacity for gaseous H-2 at level 2.54 wt.% at elevated temperatures. The ferromagnetic signal of the amorphous TiZrFe comes from magnetic nanocrystallites in the amorphous matrix. After heating, the magnetic signal significantly decreases due to the lack of long-range magnetic ordering in the i-phase of the Ti45Zr38Fe17 alloy.

keywords

HYDROGEN STORAGE PROPERTIES; QUASI-CRYSTAL

subject category

Energy & Fuels

authors

Zywczak, A; Gondek, L; Czub, J; Janusz, P; Selvaraj, NB; Takasaki, A

our authors

foto Nivas Babu Selvaraj

Nivas Babu Selvaraj

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Publication Details

type
Journal Article
year
2022
journal
ENERGIES
volume
15
article number
4236
publisher
MDPI
issue
12
digital object identifier
10.3390/en15124236
web of science article identifier
WOS:000816368600001

Journal Metrics (JCR 2019)

Journal Impact Factor
2.702
Journal Impact Factor (5 yrs)
2.822
category normalized journal percentile
44.196

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