Abstract
The high-energy mechanical milling procedure was used to manufacture the as-milled Pr5Mg85Ni10 alloys of 5 h, 10 h, 20 h, and 30 h respectively. We have been successful in obtaining a variety of nanocrystalline and amorphous alloys with varying amounts of each. The primary phase in the interior structure of the alloys is still Mg2Ni and Mg, which corresponds to the second phase PrMg12. The products of saturated hydrogen absorption include MgH2, Mg2NiH4, and PrH2.93, while the products of complete hydrogen release include Mg, Mg2Ni, and PrH2. According to the findings, the amount of time spent ball-milling the alloys is the primary component that determines how well they function in terms of the dynamic performance of hydrogen absorption and desorption. The dynamic performance of the alloy in terms of hydrogen absorption and desorption is enhanced with the increasing time spent ball-milling the material. In the same vein, the alloy that has been milled for ten hours has the most desirable thermodynamic characteristics.
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