材料导报
材料導報
재료도보
MATERIALS REVIEW
2010年
1期
89-92,98
,共5页
马行驰%岳留振%何国求%何大海%张俊喜
馬行馳%嶽留振%何國求%何大海%張俊喜
마행치%악류진%하국구%하대해%장준희
镁基储氢合金%机械合金化%储氢性能%复合材料
鎂基儲氫閤金%機械閤金化%儲氫性能%複閤材料
미기저경합금%궤계합금화%저경성능%복합재료
Mg-based hydrogen storage alloys%mechanical alloying%hydrogen storage properties%composite materials
机械合金化法是制备镁基储氢合金的较佳工艺.对近年来机械合金化法制备镁基储氢合金的研究开发,特别是在多元合金化、复合储氢合金等方面的发展进行了系统阐述.总结认为,机械合金化法可以显著改善镁基储氢舍金的动力学性能和电化学性能,提高储氢量.未来镁基储氢合金应向复合材料、新方法与机械合金化法相结合、材料的计算机设计等方面发展.
機械閤金化法是製備鎂基儲氫閤金的較佳工藝.對近年來機械閤金化法製備鎂基儲氫閤金的研究開髮,特彆是在多元閤金化、複閤儲氫閤金等方麵的髮展進行瞭繫統闡述.總結認為,機械閤金化法可以顯著改善鎂基儲氫捨金的動力學性能和電化學性能,提高儲氫量.未來鎂基儲氫閤金應嚮複閤材料、新方法與機械閤金化法相結閤、材料的計算機設計等方麵髮展.
궤계합금화법시제비미기저경합금적교가공예.대근년래궤계합금화법제비미기저경합금적연구개발,특별시재다원합금화、복합저경합금등방면적발전진행료계통천술.총결인위,궤계합금화법가이현저개선미기저경사금적동역학성능화전화학성능,제고저경량.미래미기저경합금응향복합재료、신방법여궤계합금화법상결합、재료적계산궤설계등방면발전.
Mechanical alloying is a better technology used to synthesize Mg-based hydrogen storage alloys. In this paper, the research and development progress of Mg-based hydrogen storage alloys prepared by mechanical alloying in recent years are reviewed, especially from the aspects of multi-component alloying and composite hydrogen storage alloys. It is held in the summary that mechanical alloying could obviously improve the kinetics and electro-chemistry properties and increase the hydrogen storage capacity of Mg-based hydrogen storage alloys. Composite material, new method based on mechanical alloying and computer aided design are the development trends of Mg-based hydrogen storage alloys in the future.