Hydrogenation properties of CaMg2 based alloys

Naoyoshi Terashita; Etsuo Akiba

doi:10.2320/matertrans.45.2594

Hydrogenation properties of CaMg₂ based alloys

Naoyoshi Terashita, Etsuo Akiba

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

10 被引用数 (Scopus)

抄録

Binary C14 Laves phase alloy CaMg₂ is expected to absorb hydrogen more than 6 mass%, when the H/M ratio reaches 2. We have found that the binary CaMg₂ did not absorb hydrogen at ambient temperature and hydrogen pressure but Ni added CaMg_1.8Ni_0.2 which is also C14 Laves phase absorbed 6.0mass% of hydrogen at room temperature. CaMg _1.8Ni_0.2 formed hydrides of Mg and Ca, and the C14 Laves phase disappeared. Hydrogen desorption was not observed from hydrogenated CaMg_1.8Ni_0.8. (Ca_0.8La_0.2)Mg _2.2Ni_0.1 absorbed 5.1mass% hydrogen and H/M ratio reached 1.8 at room temperature. After hydrogenation, the lattice of the Laves phase expands 4% in α-axis and 3% in c-axis. The volume expansion is 13%. The Laves phase structure is kept and hydrogen was absorbed in the lattice. The hydride of (Ca_0.8La_0.2Mg_2.2Ni_0.1 decomposed from 470 K with increase at temperature and hydrogen was released from the products of decomposition from 610 K.

本文言語	英語
ページ（範囲）	2594-2597
ページ数	4
ジャーナル	Materials Transactions
巻	45
号	8
DOI	https://doi.org/10.2320/matertrans.45.2594
出版ステータス	出版済み - 1月 1 2004
外部発表	はい

!!!All Science Journal Classification (ASJC) codes

材料科学（全般）
凝縮系物理学
材料力学
機械工学

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10.2320/matertrans.45.2594

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title = "Hydrogenation properties of CaMg2 based alloys",

abstract = "Binary C14 Laves phase alloy CaMg2 is expected to absorb hydrogen more than 6 mass%, when the H/M ratio reaches 2. We have found that the binary CaMg2 did not absorb hydrogen at ambient temperature and hydrogen pressure but Ni added CaMg1.8Ni0.2 which is also C14 Laves phase absorbed 6.0mass% of hydrogen at room temperature. CaMg 1.8Ni0.2 formed hydrides of Mg and Ca, and the C14 Laves phase disappeared. Hydrogen desorption was not observed from hydrogenated CaMg1.8Ni0.8. (Ca0.8La0.2)Mg 2.2Ni0.1 absorbed 5.1mass% hydrogen and H/M ratio reached 1.8 at room temperature. After hydrogenation, the lattice of the Laves phase expands 4% in α-axis and 3% in c-axis. The volume expansion is 13%. The Laves phase structure is kept and hydrogen was absorbed in the lattice. The hydride of (Ca0.8La0.2Mg2.2Ni0.1 decomposed from 470 K with increase at temperature and hydrogen was released from the products of decomposition from 610 K.",

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N2 - Binary C14 Laves phase alloy CaMg2 is expected to absorb hydrogen more than 6 mass%, when the H/M ratio reaches 2. We have found that the binary CaMg2 did not absorb hydrogen at ambient temperature and hydrogen pressure but Ni added CaMg1.8Ni0.2 which is also C14 Laves phase absorbed 6.0mass% of hydrogen at room temperature. CaMg 1.8Ni0.2 formed hydrides of Mg and Ca, and the C14 Laves phase disappeared. Hydrogen desorption was not observed from hydrogenated CaMg1.8Ni0.8. (Ca0.8La0.2)Mg 2.2Ni0.1 absorbed 5.1mass% hydrogen and H/M ratio reached 1.8 at room temperature. After hydrogenation, the lattice of the Laves phase expands 4% in α-axis and 3% in c-axis. The volume expansion is 13%. The Laves phase structure is kept and hydrogen was absorbed in the lattice. The hydride of (Ca0.8La0.2Mg2.2Ni0.1 decomposed from 470 K with increase at temperature and hydrogen was released from the products of decomposition from 610 K.

AB - Binary C14 Laves phase alloy CaMg2 is expected to absorb hydrogen more than 6 mass%, when the H/M ratio reaches 2. We have found that the binary CaMg2 did not absorb hydrogen at ambient temperature and hydrogen pressure but Ni added CaMg1.8Ni0.2 which is also C14 Laves phase absorbed 6.0mass% of hydrogen at room temperature. CaMg 1.8Ni0.2 formed hydrides of Mg and Ca, and the C14 Laves phase disappeared. Hydrogen desorption was not observed from hydrogenated CaMg1.8Ni0.8. (Ca0.8La0.2)Mg 2.2Ni0.1 absorbed 5.1mass% hydrogen and H/M ratio reached 1.8 at room temperature. After hydrogenation, the lattice of the Laves phase expands 4% in α-axis and 3% in c-axis. The volume expansion is 13%. The Laves phase structure is kept and hydrogen was absorbed in the lattice. The hydride of (Ca0.8La0.2Mg2.2Ni0.1 decomposed from 470 K with increase at temperature and hydrogen was released from the products of decomposition from 610 K.

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