稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
2期
198-202
,共5页
陈如柑%王新华%葛红卫%李寿权%陈立新%陈长聘
陳如柑%王新華%葛紅衛%李壽權%陳立新%陳長聘
진여감%왕신화%갈홍위%리수권%진립신%진장빙
贮氢合金%CeMg12%表面包覆%机械合金化
貯氫閤金%CeMg12%錶麵包覆%機械閤金化
저경합금%CeMg12%표면포복%궤계합금화
hydrogen storage alloys%CeMg12%surface treatment%mechanical grinding
采用在CeMg12中添加镍粉球磨制备非晶态合金,并研究化学镀表面包覆Ni对其电化学性能的影响.结果表明,非晶态CeMg12具有很高的电化学放电容量,CeMg12+200%Ni(质量分数)球磨50 h后复合电极材料电化学容量达到1209.6 mAh/g,但是电化学循环稳定性较差,10次循环保持率为37.26%.通过化学镀镍进行表面包覆能明显提高合金的综合电化学性能.化学镀表面包覆Ni后,合金10个循环的保持率上升到69.67%:同时由于添加的Ni和包覆Ni的共同催化作用,合金高倍率性能也得到了相应的提高,HRD900由原来的54.2%提升到72.4%;但是由于化学镀过程中部分合金被氧化,使复合合金的最大放电容量略有下降.
採用在CeMg12中添加鎳粉毬磨製備非晶態閤金,併研究化學鍍錶麵包覆Ni對其電化學性能的影響.結果錶明,非晶態CeMg12具有很高的電化學放電容量,CeMg12+200%Ni(質量分數)毬磨50 h後複閤電極材料電化學容量達到1209.6 mAh/g,但是電化學循環穩定性較差,10次循環保持率為37.26%.通過化學鍍鎳進行錶麵包覆能明顯提高閤金的綜閤電化學性能.化學鍍錶麵包覆Ni後,閤金10箇循環的保持率上升到69.67%:同時由于添加的Ni和包覆Ni的共同催化作用,閤金高倍率性能也得到瞭相應的提高,HRD900由原來的54.2%提升到72.4%;但是由于化學鍍過程中部分閤金被氧化,使複閤閤金的最大放電容量略有下降.
채용재CeMg12중첨가얼분구마제비비정태합금,병연구화학도표면포복Ni대기전화학성능적영향.결과표명,비정태CeMg12구유흔고적전화학방전용량,CeMg12+200%Ni(질량분수)구마50 h후복합전겁재료전화학용량체도1209.6 mAh/g,단시전화학순배은정성교차,10차순배보지솔위37.26%.통과화학도얼진행표면포복능명현제고합금적종합전화학성능.화학도표면포복Ni후,합금10개순배적보지솔상승도69.67%:동시유우첨가적Ni화포복Ni적공동최화작용,합금고배솔성능야득도료상응적제고,HRD900유원래적54.2%제승도72.4%;단시유우화학도과정중부분합금피양화,사복합합금적최대방전용량략유하강.
Amorphous CeMg12 was prepared by ball milled CeMg12 alloy with Ni powder. The effects of mechanical grinding and electroless deposition of nickel (EDN) on the electrochemical properties of CeMg12 composites have been studied systematically. Amorphous CeMg12 composites have a maximum discharge capacity of 1209.6 mAh/g, but their cycling stability is poor. The cy-cling retention rate of the electrode is 37.26% after 10 cycles. After EDN treatment, the cycling stability of CeMg12 composite is im-proved markedly, and the cycling retention rate increases to 63.67% after 10 cycles. The improvement of cycling retention rate can be attributed to compact nickel coating that prevents the inner Mg from further corrosion by alkali. The nickel coating also enhances the high rate discharge (HRD) property of the composite owning to the good electrochemical catalytic properties of Ni. As oxidation and corrosion is unavoidable during EDN treatment, the maximum discharge capacity decreases slightly for CeMg12 composite with EDN treatment.
