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학술저널
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한양대학교 세라믹공정연구센터 Journal of Ceramic Processing Research Journal of Ceramic Processing Research 제20권 제2호
발행연도
2019.1
수록면
173 - 181 (9page)

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Metallic oxides are brittle and halides have low melting points. They are expected to increase the reaction rates of Mg withhydrogen when added. Samples with compositions of 95 wt% Mg+5 wt% TiCl3 (designated as Mg-5TiCl3), 90 wt%Mg+10 wt% TiCl3 (Mg-10TiCl3), and 80 wt% Mg+14 wt% Ni+6 wt% TiCl3 (Mg-14Ni-6TiCl3) were prepared by high-energyball milling in hydrogen (reactive mechanical grinding). At the first cycle (n = 1), Mg-5TiCl3 had the highest initial hydrogenuptake rate and the largest quantity of hydrogen absorbed for 60 min at 593 K in 12 bar H2, followed by Mg-10TiCl3 and Mg-14Ni-6TiCl3. Mg-5TiCl3 had an effective hydrogen storage capacity (a quantity of hydrogen absorbed for 60 min) of about6.3 wt% at n = 1. Mg-5TiCl3 absorbed 4.84 wt% H for 5 min and 6.27 wt% H for 60 min. Decrease in the Mg proportion inMg-14Ni-6TiCl3, compared with those in Mg-5TiCl3 and Mg-10TiCl3, and the formation of Mg2Ni, with a lower hydrogenstorage capacity than Mg, are thought to decrease the initial hydrogen uptake rate and the quantity of hydrogen absorbed for60 min for Mg-14Ni-6TiCl3. At n = 1, Mg-14Ni-6TiCl3 has the highest initial hydrogen release rate at 593 K in 1.0 bar H2,followed by Mg-10TiCl3 and Mg-5TiCl3. The Mg2Ni formed in Mg-14Ni-6TiCl3 and the larger content of additives (favoringthe nucleation of Mg-H solid solution) are believed to make Mg-14Ni-6TiCl3 have the highest initial hydrogen release rateamong these three samples. The hydrogen storage properties of Mg-14Ni-6TiCl3 were compared with those of Fe2O3 and NiaddedMg, which were prepared under the conditions similar to those to prepare Mg-14Ni-6TiCl3.

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