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Effect of initial powder type on the hydrogen storage properties of high-pressure torsion consolidated Mg

While severe plastic deformation (SPD) on bulk samples has been widely applied for modifying the H-sorption properties, there has been little attention towards the use of SPD on powder materials. In this context, the aim of the present work was to compare the H-storage properties of high-pressure to...

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Published in:International journal of hydrogen energy 2017-08, Vol.42 (35), p.22438-22448
Main Authors: Panda, Subrata, Fundenberger, Jean-Jacques, Zhao, Yajun, Zou, Jianxin, Toth, Laszlo S., Grosdidier, Thierry
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cited_by cdi_FETCH-LOGICAL-c412t-53fb6c6c4cd7457f7a6b0422a50c71e57f691e6457dbe078e4f779b1d1d020d73
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container_end_page 22448
container_issue 35
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container_title International journal of hydrogen energy
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creator Panda, Subrata
Fundenberger, Jean-Jacques
Zhao, Yajun
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description While severe plastic deformation (SPD) on bulk samples has been widely applied for modifying the H-sorption properties, there has been little attention towards the use of SPD on powder materials. In this context, the aim of the present work was to compare the H-storage properties of high-pressure torsion (HPT) consolidated products obtained from two distinct Mg powder precursors: atomized micro-sized and condensed ultrafine powder particles. The results showed that the nature of the initial powder precursor had a pronounced effect on the H-sorption behavior. The HPT product obtained from the condensed ultrafine powder showed faster absorption kinetics than the consolidated product obtained from the atomized powder. However, the HPT product obtained from atomized powder could absorb more hydrogen and showed faster desorption kinetics corresponding to a lower activation energy. These results are discussed by taking into account the effectiveness of the HPT process to refine the grain sizes and differences in the dispersion of fine MgO oxide particles. •Atomized micro-sized and condensed ultrafine Mg powders were processed by HPT.•From atomized powder, the micro-HPT product contained 1 μm equiaxed grains.•From condensed powder, a nano-HPT MgO + elongated Mg composite was obtained.•The nano-HPT product showed faster absorption kinetics than the micro-HPT one.•The micro-HPT had higher storage capacity and faster desorption kinetics.
doi_str_mv 10.1016/j.ijhydene.2017.05.097
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subjects Engineering Sciences
H-sorption
HPT
Hydrogenation/dehydrogenation
Nanocomposites
Powder consolidation
title Effect of initial powder type on the hydrogen storage properties of high-pressure torsion consolidated Mg
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