Influence of Titanium and Iron Additives to Magnesium on Hydrogen-Sorption Properties, Thermal Stability, and Kinetics of Hydrogen Desorption from MgH sub(2) Phase of Mechanical Alloy

We report on studies of the process of cyclic hydriding-dehydriding (eight cycles) of a mechanical alloy synthesized in a ball mill by grinding powder mixture Mg + 10 wt.% TiH sub(2) + 10 wt.% Fe in argon medium. Hydrogen-sorption properties and thermal stability of the mechanical alloy are studied...

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Bibliographic Details
Published in:Powder metallurgy and metal ceramics 2016-11, Vol.55 (7-8), p.477-488
Main Authors: Dobrovolsky, V D, Ershova, O G, Solonin, YuM, Khyzhun, OYu
Format: Article
Language:English
Subjects:
Additives
Alloying additive
Desorption
Hydrides
Hydrogen storage
Iron
Thermal stability
Titanium
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Summary:We report on studies of the process of cyclic hydriding-dehydriding (eight cycles) of a mechanical alloy synthesized in a ball mill by grinding powder mixture Mg + 10 wt.% TiH sub(2) + 10 wt.% Fe in argon medium. Hydrogen-sorption properties and thermal stability of the mechanical alloy are studied employing thermodesorption spectroscopy at hydrogen pressure of 0.1 MPa. Hydrogen capacity of the mechanical alloy is determined to be 4.9 wt.%, and onset temperature of hydrogen desorption from the alloy under this study equals 220 degree C. Kinetics of the process of hydrogen desorption from the hydride phases of the mechanical alloy is examined. The present studies have revealed that mechanical treatment of the magnesium powder in Ar medium with both Fe and Ti additives causes a greater effect on improving the kinetics of hydrogen desorption from hydride phase MgH sub(2) of the alloy and decreasing its thermal stability in comparison with that caused by mechanical treatment of the same powder with either Fe or Ti additives in hydrogen medium.
ISSN:1068-1302
1573-9066
DOI:10.1007/s11106-016-9830-z