| 快淬Mg-10Ni-2Mm储氢合金的组织演化 |
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| 引用本文: | 武英,邢娜,卢志超,韩伟,周少雄. 快淬Mg-10Ni-2Mm储氢合金的组织演化[J]. 中国有色金属学会会刊, 2011, 21(1): 121-126 |
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| 作者姓名: | 武英 邢娜 卢志超 韩伟 周少雄 |
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| 作者单位: | 武英,WU Ying(中国钢研科技集团有限公司,安泰科技股份有限公司,北京,100081;挪威科技大学,材料技术系,特隆赫姆7491,挪威;挪威能源技术研究所,Kjeller N-2027,挪威);邢娜,XING Na(中国钢研科技集团有限公司,安泰科技股份有限公司,北京,100081;内蒙古工业大学,材料科学与工程学院,呼和浩特,100051);卢志超,韩伟,周少雄,LU Zhi-chao,HAN Wei,ZHOU Shao-xiong(中国钢研科技集团有限公司,安泰科技股份有限公司,北京,100081);J.K.SOLBERG,J.K.SOLBERG(挪威科技大学,材料技术系,特隆赫姆7491,挪威);V. A. YARTYS,V. A. YARTYS(挪威科技大学,材料技术系,特隆赫姆7491,挪威;挪威能源技术研究所,Kjeller N-2027,挪威) |
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| 基金项目: | Project(2007DFA50590)supported by the International S&T Cooperation Projects the Norwegian Research Council for financial support |
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| 摘 要: | 研究一种镁基Mg-10Ni-2Mm(摩尔分数,%)储氢合金在不同凝固速率下的组织演化。结果表明:增加凝固速率可以大幅度细化合金条带的晶粒;采用的石墨冷却轮表面速度为3.1,10.5和20.9m/s时,可以分别获得微晶、纳米晶和非晶组织;当冷却轮盘表面速度为3.1m/s时,快淬试样完全结晶化,组织中除了少量富Mm晶粒外,形成了粗大的Mg和Mg2Ni微晶;加快冷却轮盘表面速度到10.5m/s时,大量的纳米颗粒形成,组织由大量的Mg和Mg2Ni纳米晶组成;进一步加快速度到20.9m/s时,形成了包括非晶和纳米晶的混合组织。理想的组织是非晶基体上析出大量纳米晶,这样的组织有望获得最大的储氢容量和优异的吸放氢动力学。
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| 关 键 词: | 储氢材料 镁基合金 快速凝固 组织 透射电镜 |
Microstructural evolution of melt-spun Mg-10Ni-2Mm hydrogen storage alloy |
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| J.K.SOLBERG,V. A. YARTYS,WU Ying,XING Na,LU Zhi-chao,HAN Wei,ZHOU Shao-xiong,J.K.SOLBERG,V. A. YARTYS. Microstructural evolution of melt-spun Mg-10Ni-2Mm hydrogen storage alloy[J]. Transactions of Nonferrous Metals Society of China, 2011, 21(1): 121-126 |
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| Authors: | J.K.SOLBERG V. A. YARTYS WU Ying XING Na LU Zhi-chao HAN Wei ZHOU Shao-xiong J.K.SOLBERG V. A. YARTYS |
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| Affiliation: | WU Ying1,2,3,XING Na1,4,LU Zhi-chao1,HAN Wei1,Z HOU Shao-xiong1,J.K.SOLBERG2,V.A.YARTYS2,3 1.Central Iron & Steel Research Institute Group,Advanced Technology & Materials Co.,Ltd.,Beijing 100081,China,2.Department of Materials Technology,Norwegian University of Science and Technology,NO-7491 Trondheim,Norway,3.Institute for Energy Technology,P.O.Box 40,N-2027 Kjeller,4.School of Materials Science and Engineering,Inner Mo ngolia University of Technology,Hohhot 100051 |
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| Abstract: | The microstructural evolution of a Mg-10Ni-2Mm(molar fraction,%)(Mm=Ce,La-rich mischmetal) hydrogen storage alloys applied with various solidification rates was studied.The results show that the grain size of melt-spun ribbon is remarkably reduced by increasing the solidification rate.The microcrystalline,nanocrystalline and amorphous microstructures are obtained by applying the surface velocities of the graphite wheel of 3.1,10.5 and 20.9 m/s,respectively.By applying the surface velocity of the graphite wh... |
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| Keywords: | hydrogen storage materials Mg-based alloys rapid-solidification microstructure transmission electron microscopy |
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