机译:在H_2气氛下用镍铁和钒进行机械研磨可提高镁的储氢性能
Division of Advanced Materials Engineering, Department of Hydrogen and Fuel Cells, Research Center of Advanced Materials Development,Engineering Research Institute, Chonbufe National University, 664-14 Deogjin-Dong IGa Deogjin-Gu, Jeonju 561-756, Republic of Korea;
Department of Hydrogen and Fuel Cells Engineering, Specialized Graduate School, Chonbufe National University, 664-14 Deogjin-Dong IGa Deogjin-Gu, Jeonju 561-756, Republic of Korea;
School of Applied Chemical Engineering, Chonnam National University, 300 Yongbong-Dong, Bufe-Gu, Gwangju 500-757, Republic of Korea;
Powder Materials Research Center, KIMS, Korea Institute of Machinery & Materials, 66 Sangnam-Dong, Changivon-Si 641-010,Republic of Korea;
hydrogen storage material; reactive mechanical grinding (RMG); magnesium; nickel; temperature dependence; rate-controlling step;
机译:通过反应机械研磨和脱水反应中的速率控制步骤,通过添加镍和钛来改善MgH_2的储氢性能
机译:在H_2气氛中通过行星球磨制备的Mg-Ni-Fe混合物的储氢特性
机译:通过10 wt。%的反应性机械研磨改善Mg的储氢动力学。 Fe_2O_3和5 wt。镍百分比
机译:机械研磨MGH2-NANO NI储氢性能,用于固体储氢材料
机译:通过热机械加工改善纳米结构的Ti-Ni形状记忆合金的功能性能。
机译:研究壳聚糖纳米包装和气调包装对存储期间纽扣菇的物理化学和机械性能的影响
机译:机械研磨在氩气和氢气气氛下对LANI 5 sub>的水合性能的影响
机译:测试和储存环境对镀镍和裸露U-3/4 Wt%Ti的力学性能的影响