稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2010年
4期
702-706
,共5页
黄红霞%黄可龙%刘素琴%陈东洋
黃紅霞%黃可龍%劉素琴%陳東洋
황홍하%황가룡%류소금%진동양
MgNi非晶合金%储氢合金%电化学性能
MgNi非晶閤金%儲氫閤金%電化學性能
MgNi비정합금%저경합금%전화학성능
amorphous MgNi alloy%hydrogen storage alloy%electrochemical property
采用机械合金化法,制备了MgNi非晶储氢合金.探讨了球磨生成非晶的机制.用SEM和XRD分析了合金的表面形貌和相组成.研究不同的球磨工艺如球料比、球径配比、转速以及球磨时间对合金电极电化学性能的影响.所制备的MgNi非晶合金电极的放电容量最高为450 mAh/g,但是容量衰减较快.
採用機械閤金化法,製備瞭MgNi非晶儲氫閤金.探討瞭毬磨生成非晶的機製.用SEM和XRD分析瞭閤金的錶麵形貌和相組成.研究不同的毬磨工藝如毬料比、毬徑配比、轉速以及毬磨時間對閤金電極電化學性能的影響.所製備的MgNi非晶閤金電極的放電容量最高為450 mAh/g,但是容量衰減較快.
채용궤계합금화법,제비료MgNi비정저경합금.탐토료구마생성비정적궤제.용SEM화XRD분석료합금적표면형모화상조성.연구불동적구마공예여구료비、구경배비、전속이급구마시간대합금전겁전화학성능적영향.소제비적MgNi비정합금전겁적방전용량최고위450 mAh/g,단시용량쇠감교쾌.
Amorphous MgNi hydrogen storage alloy was synthesized by mechanically alloying (MA) with the proper milling parameters. The mechanism of amorphous formation by milling was discussed. The surface morphology and phases were analyzed by SEM and XRD. The effect of different parameters such as the mass ratio of ball to powder, the number and size of the balls, and the milling rate and time on electrochemical properties was tested. The maximum discharge capacity of the prepared amorphous MgNi alloy electrode was 450 mAh/g, but the capacity deteriorated fast.
