Hydrogen storage behaviors and microstructure of MF_3(M=Ti,Fe)-doped magnesium hydride 被引量：3

Hydrogen storage behaviors and microstructure of MF_3(M=Ti,Fe)-doped magnesium hydride

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摘要 MgH2+10%MF3(M=Ti,Fe)(mass fraction) composites were prepared by ball-milling in hydrogen atmosphere,and their hydrogen storage behaviors and microstructure were investigated systematically.The results show that the hydriding and dehydriding kinetics of MgH2 are markedly improved by doping TiF3 and FeF3 fluorides.At 573 K,the two composites can absorb 5.67%-6.07%(mass fraction) hydrogen within 5 min under an initial hydrogen pressure of 3.5 MPa,and desorb 5.34%-6.02% hydrogen within 6 min.Furthermore,the composites can absorb hydrogen rapidly in moderate temperature range of 313-473 K.In comparison,TiF3-doped sample has a better hydriding-dehydriding kinetics than FeF3-doped sample.The microstructure analysis shows that some active particles including MgF2,TiH2 and Fe could be formed in the hydriding-dehydriding processes of the MF3-doped composites.From the Kissinger's plot,the apparent activation energies for the hydrogen desorption of the composites are estimated to be 74.1 kJ/mol for TiF3-doped composite and 77.6 kJ/mol for FeF3-doped composite,indicating MgH2 is significantly activated due to the catalytic effect of the doping of MF3. MgH2＋10%MF3（M=Ti,Fe）（mass fraction） composites were prepared by ball-milling in hydrogen atmosphere,and their hydrogen storage behaviors and microstructure were investigated systematically.The results show that the hydriding and dehydriding kinetics of MgH2 are markedly improved by doping TiF3 and FeF3 fluorides.At 573 K,the two composites can absorb 5.67%-6.07%（mass fraction） hydrogen within 5 min under an initial hydrogen pressure of 3.5 MPa,and desorb 5.34%-6.02% hydrogen within 6 min.Furthermore,the composites can absorb hydrogen rapidly in moderate temperature range of 313-473 K.In comparison,TiF3-doped sample has a better hydriding-dehydriding kinetics than FeF3-doped sample.The microstructure analysis shows that some active particles including MgF2,TiH2 and Fe could be formed in the hydriding-dehydriding processes of the MF3-doped composites.From the Kissinger＇s plot,the apparent activation energies for the hydrogen desorption of the composites are estimated to be 74.1 kJ/mol for TiF3-doped composite and 77.6 kJ/mol for FeF3-doped composite,indicating MgH2 is significantly activated due to the catalytic effect of the doping of MF3.

作者彭书科肖学章许瑞娟李骆吴凡李寿权王启东陈立新

机构地区 Department of Materials Science and Engineering

出处《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2010年第10期1879-1884,共6页 中国有色金属学报（英文版）

基金 Project(2006AA05Z144) supported by the National High-tech Research and Development Program of China Project(2007CB209701) supported by the National Basic Research Program of China Project(NCET-07-0741) supported by the Program for New Century Excellent Talents in University, China Project(2006C11233) supported by the Science and Technology Program of Zhejiang Province, China

关键词 Mg-based composites TiF3 FeF3 hydrogen storage properties MICROSTRUCTURE 显微组织分析氢化物氢化钛氟化镁掺杂复合材料制备铁 MgH2

分类号 TG139.7 [一般工业技术—材料科学与工程]

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