MgH_2-Ti/Cr(AMORPHOUS)COMPOSITE FOR HYDROGEN STORAGE 被引量：1

MgH_2-Ti/Cr(AMORPHOUS)COMPOSITE FOR HYDROGEN STORAGE

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摘要 Ti/Cr (atomic ratio 3:4) amorphous alloy was prepared by ball milling the rapidly quenched Ti/Cr ribbons for 30h, and then milled with MgH_2 for 50 h under Ar atmosphere to obtain MgH_2-30wt. % Ti/Cr composite. The XRD results indicate that MgH_2 decomposed partly during ball milling process. The brittle MgH_2 and the mechanical driving force resulted in a highly dispersive distribution of the Ti/Cr amorphous phase in the Mg matrix. The favorable hydrogenation performance is mainly attributed to the com... Ti/Cr (atomic ratio 3:4) amorphous alloy was prepared by ball milling the rapidly quenched Ti/Cr ribbons for 30h, and then milled with MgH_2 for 50 h under Ar atmosphere to obtain MgH_2-30wt. % Ti/Cr composite. The XRD results indicate that MgH_2 decomposed partly during ball milling process. The brittle MgH_2 and the mechanical driving force resulted in a highly dispersive distribution of the Ti/Cr amorphous phase in the Mg matrix. The favorable hydrogenation performance is mainly attributed to the combine...

作者王秀丽涂江平张孝彬陈长聘赵新兵

机构地区 Department of Materials Science and Engineering

出处《化工学报》 EI CAS CSCD 北大核心 2004年第S1期187-189,共3页 CIESC Journal

基金 supported by the Special Funds for Major States Basic Research Project (No. TG20000264-06) of MOST, China

关键词 hydrogen storage Mg-based alloy ball milling amorphous alloy hydriding kinetics hydrogen storage Mg-based alloy ball milling amorphous alloy hydriding kinetics

分类号 TG139.7 [一般工业技术—材料科学与工程]

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MgH_2-Ti/Cr(AMORPHOUS)COMPOSITE FOR HYDROGEN STORAGE 被引量：1

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