中国有色金属学报(英文版)
中國有色金屬學報(英文版)
중국유색금속학보(영문판)
Transactions of Nonferrous Metals Society of China
2015年
11期
3736-3746
,共11页
张羊换%韩忠刚%袁泽明%杨泰%祁焱%赵栋梁
張羊換%韓忠剛%袁澤明%楊泰%祁焱%趙棟樑
장양환%한충강%원택명%양태%기염%조동량
贮氢%Mg2Ni型合金%机械球磨%元素替代%电化学性能
貯氫%Mg2Ni型閤金%機械毬磨%元素替代%電化學性能
저경%Mg2Ni형합금%궤계구마%원소체대%전화학성능
hydrogen storage%Mg2Ni-type alloy%mechanical milling%element substitution%electrochemical performance
采用真空感应熔炼在高纯氦气气氛保护下制备Mg2Ni型Mg20–xYxNi10(x=0,1,2,3,4)铸态电极合金,然后将铸态合金置于行星式球磨机中进行机械球磨得到球磨合金。SEM、XRD以及TEM测试结果表明,通过球磨可以得到纳米晶和非晶结构,非晶相含量随着球磨时间的延长而增加。电化学测试表明,Y0合金的放电容量随着球磨时间的延长而增大,而Y替代合金的放电容量随球磨时间的延长出现最大值。循环稳定性随着球磨时间的延长均有所降低,表明球磨对循环稳定性不利。球磨时间对电化学动力学的影响与Y含量有关。当x=0时,合金电极的高倍率放电性能、氢扩散系数、极限电流密度以及电荷转移率都随着球磨时间的延长而增大,而x=3时结果却相反。
採用真空感應鎔煉在高純氦氣氣氛保護下製備Mg2Ni型Mg20–xYxNi10(x=0,1,2,3,4)鑄態電極閤金,然後將鑄態閤金置于行星式毬磨機中進行機械毬磨得到毬磨閤金。SEM、XRD以及TEM測試結果錶明,通過毬磨可以得到納米晶和非晶結構,非晶相含量隨著毬磨時間的延長而增加。電化學測試錶明,Y0閤金的放電容量隨著毬磨時間的延長而增大,而Y替代閤金的放電容量隨毬磨時間的延長齣現最大值。循環穩定性隨著毬磨時間的延長均有所降低,錶明毬磨對循環穩定性不利。毬磨時間對電化學動力學的影響與Y含量有關。噹x=0時,閤金電極的高倍率放電性能、氫擴散繫數、極限電流密度以及電荷轉移率都隨著毬磨時間的延長而增大,而x=3時結果卻相反。
채용진공감응용련재고순양기기분보호하제비Mg2Ni형Mg20–xYxNi10(x=0,1,2,3,4)주태전겁합금,연후장주태합금치우행성식구마궤중진행궤계구마득도구마합금。SEM、XRD이급TEM측시결과표명,통과구마가이득도납미정화비정결구,비정상함량수착구마시간적연장이증가。전화학측시표명,Y0합금적방전용량수착구마시간적연장이증대,이Y체대합금적방전용량수구마시간적연장출현최대치。순배은정성수착구마시간적연장균유소강저,표명구마대순배은정성불리。구마시간대전화학동역학적영향여Y함량유관。당x=0시,합금전겁적고배솔방전성능、경확산계수、겁한전류밀도이급전하전이솔도수착구마시간적연장이증대,이x=3시결과각상반。
The as-cast Mg2Ni-type Mg20–xYxNi10 (x=0, 1, 2, 3 and 4) electrode alloys were prepared by vacuum induction melting. Subsequently, the as-cast alloys were mechanically milled in a planetary-type ball mill. The analyses of scanning electron microscopy (SEM), X-ray diffraction (XRD) and transmission electron microscopy (TEM) reveal that nanocrystalline and amorphous structure can be obtained by mechanical milling, and the amount of amorphous phase increases with milling time prolonging. The electrochemical measurements show that the discharge capacity of Y0 alloy increases with milling time prolonging, while that of the Y-substituted alloys has a maximum value in the same condition. The cycle stabilities of the alloys decrease with milling time prolonging. The effect of milling time on the electrochemical kinetics of the alloys is related to Y content. Whenx=0, the high rate discharge ability, diffusion coefficient of hydrogen atom, limiting current density and charge transfer rate all increase with milling time prolonging, but the results are exactly opposite whenx=3.
