Processing by controlled mechanical milling of nanocomposite powders Mg + X (X = Co, Cr, Mo, V, Y, Zr) and their hydrogenation properties

J. Bystrzycki; T. Czujko; R.A. Varin

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Processing by controlled mechanical milling of nanocomposite powders Mg + X (X = Co, Cr, Mo, V, Y, Zr) and their hydrogenation properties

机译：纳米复合粉体Mg + X（X = Co，Cr，Mo，V，Y，Zr）的受控机械研磨工艺及其氢化性能

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Controlled mechanical milling under high-energy impact (impact 2) mode in the magneto-mill Uni-Ball-Mill 5 was applied for processing of nanocomposite powders Mg + X (X = Co, Cr, Mo, V, Y, Zr) in order to develop novel nanoscale Mg-based materials with improved hydrogen storage properties through nanostructurization and possible catalytic effect of additive metal. No mechanical alloying has occurred between Mg and the catalytic metals after milling for 20 h. Catalytic metals such as Co, Cr, V, Y and Zr improve the absorption kinetics very substantially. Only the nanocomposite Mg/Mo has the hydrogenation kinetics much worse than that of a single-phase Mg. No correlation between the crystallite (nanograin) size of catalytic metals and the hydrogen absorption kinetics is observed.

机译：在电磁磨机Uni-Ball-Mill 5中在高能冲击（冲击2）模式下进行的受控机械磨削被用于处理纳米复合粉末Mg + X（X = Co，Cr，Mo，V，Y，Zr）。为了通过纳米结构化和可能的添加金属催化作用，开发出具有改善的储氢性能的新型纳米级镁基材料。研磨20小时后，Mg与催化金属之间未发生机械合金化。催化金属（例如Co，Cr，V，Y和Zr）极大地改善了吸收动力学。仅纳米复合材料Mg / Mo的氢化动力学比单相Mg的氢化动力学差得多。催化金属的微晶（纳米）尺寸与氢吸收动力学之间没有相关性。

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《Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics》 |2005年第0期|共4页
作者
J. Bystrzycki; T. Czujko; R.A. Varin;
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正文语种 eng
中图分类合金学与各种性质合金;
关键词
Controlled mechanical milling; Nanocomposite materials; Hydrogen sorption;

机译：受控机械研磨;纳米复合材料;氢吸附;

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Processing by controlled mechanical milling of nanocomposite powders Mg + X (X = Co, Cr, Mo, V, Y, Zr) and their hydrogenation properties

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