Hydrogen Absorption Performance of Mechanically Alloyed (Mg&lt;SUB&gt;2&lt;/SUB&gt;Ni)&lt;SUB&gt;100&amp;minus;&lt;I&gt;x&lt;/I&gt;&lt;/SUB&gt;Ti&lt;I&gt;&lt;SUB&gt;x&lt;/SUB&gt;&lt;/I&gt; Powder

Abstract:Mg, the A-site atom in C14 (MgZn 2 ), C15 (MgCu 2 ), and C36 (MgNi 2 ) Laves phase alloys, was added to the Zr-based AB 2 metal hydride (MH) alloy during induction melting. Due to the high melting temperature of the host alloy (>1500˝C) and high volatility of Mg in the melt, the Mg content of the final ingot is limited to 0.8 at%. A new Mg-rich cubic phase was found in the Mg-containing alloys with a small phase abundance, which contributes to a significant increase in hydrogen storage capacities, the degree of disorder (DOD) in the hydride, the high-rate dischargeability (HRD), and the charge-transfer resistances at both room temperature (RT) and´40˝C. This phase also facilitates the activation process in measurement of electrochemical discharge capacity. Moreover, through a correlation study, the Ni content was found to be detrimental to the storage capacities, while Ti content was found to be more influential in HRD and charge-transfer resistance in this group of AB 2 metal hydride (MH) alloys.

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Hydrogen Absorption Performance of Mechanically Alloyed (Mg<SUB>2</SUB>Ni)<SUB>100−<I>x</I></SUB>Ti<I><SUB>x</SUB></I> Powder

Cited by 3 publications

References 22 publications

Correlation study between hydrogen absorption property and lattice structure of Mg-based BCC alloys

Correlation study between hydrogen absorption property and lattice structure of Mg-based BCC alloys

Scaled-up synthesis of nanostructured Mg-based compounds and their hydrogen storage properties

Studies on Incorporation of Mg in Zr-Based AB2 Metal Hydride Alloys

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