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La_(0.67)Mg_(0.33)Ni_(3.0-x)Al_x (x=0.0~0.35)贮氢合金相结构和电化学性能研究(英文) 被引量:5

Phase Structures and Electrochemical Performances of La_(0.67)Mg_(0.33)Ni_(3.0-x)Al_x(x=0.0~0.35) Hydrogen Storage Alloys
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摘要 采用X射线衍射、电子探针和电化学测试研究了La0.67Mg0.33Ni3.0-xAlx(x=0.0~0.35)合金的相结构和电化学性能。XRD结果和EPMA观察表明:La0.67Mg0.33Ni3.0合金由LaNi3相和La2Ni7相组成。然而La0.67Mg0.33Ni3.0-xAlx(x=0.1,0.2,0.35)合金不含LaNi3相。研究结果表明Al替代Ni改变了La0.67Mg0.33Ni3.0合金的相结构,Al替代Ni不利于La0.67Mg0.33Ni3.0合金中LaNi3相的形成。此外,随Al含量的增加,La0.67Mg0.33Ni3.0-xAlx(x=0.1,0.2,0.35)合金的相结构也发生了变化。WDS分析表明:随La0.67Mg0.33Ni3.0-xAlx合金中x的增加,Al在LaNi5相中的含量增加,但Al在LaNi2相的含量很少并且几乎不随x变化。电化学性能测试表明:Al替代Ni提高了La0.67Mg0.33Ni3.0合金电极的循环稳定性。但La0.67Mg0.33Ni3.0-xAlx合金电极的放电容量却随Al含量的增加而明显降低。 Phase structures and electrochemical performances of La0.67Mg0.33Ni3.0-xAlx(x=0.0-0.35) alloys were investigated by means of X-ray diffraction (XRD), electron probe X-Ray microanalysis (EPMA) and electrochemical measurements. XRD patterns and EPMA analysis show that La0.67Mg0.33Ni3.0 alloy is composed of LaNi3 phase and La2Ni7 phase. But La0.67Mg0.33Ni3.0-xAlx (x=0. 1,0.2 and 0.35) alloys do not contain LaNi3 phase. The XRD results indicate that Al substitution for Ni will change phase structure of La0.67Mg0.33Ni3.0 alloy, and Al substitution is not beneficial to form LaNi3 phase in La0.67Mg0.33Ni3.0 alloy. Moreover, phase structures of La0.67Mg0.33Ni3.0-xAlx (x=0.1,0.2 and 0.35) alloys also change with the increase of Al content in the alloys. WDS analysis shows that Al content increase in LaNi5 phase with the increase of x in La0.67Mg0.33Ni3.0-xAlx alloys. But Al content in LaNi2 phase is quite a little and almost keeps constant with the change of x. Electrochemical measurements show that substitution of Ni by Al is effective to enhance the cycle life of La0.67Mg0.33Ni3.0 alloy. However the discharge capacities of La0.67Mg0.33Ni3.0-xAlx alloy electrodes decrease obviously with the Al content x increment in the alloys.
作者 王大辉 罗永春 康龙 阎汝煦
机构地区 兰州理工大学 有色金属新材料重点实验室 有色金属新材料重点实验室
出处 《稀有金属材料与工程》 SCIE EI CAS CSCD 北大核心 2006年第9期1379-1382,共4页 Rare Metal Materials and Engineering
基金 NationalNaturalScienceFoundationofChina(50171021)
关键词 贮氢合金 Al替代Ni X射线衍射 电化学性能 hydrogen storage alloy Al substitution for Ni X-ray diffraction electrochemical performances
分类号 TG139.7 [一般工业技术—材料科学与工程]
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参考文献23

  • 1江建军,雷永泉,孙大林,吴京,王启东.非化学计量比贮氢电极合金的电化学性能和结构及热力学研究[J].稀有金属材料与工程,1997,26(3):14-19. 被引量:12
  • 2Sakai T et al.J Less-Common Met[J],1991,172:1194
  • 3Ovshinsky S R et al.Science[J],1993,260:176
  • 4Sakai T et al.J Alloys Compd[J],1999,293~295:762
  • 5Reilly J J et al.J Alloys Compd[J],1999,293~295:569
  • 6Kim D M et al.J Alloys Compd[J],1999,293~ 295:583
  • 7Kadir K et al.J Alloys Compd[J],1997,257:115
  • 8Kadir K et al.J Alloys Compd[J],1999,284:145
  • 9Kadir K et al.J Alloys Compd[J],1999,287:264
  • 10Kadir K et al.J Alloys Compd[J],2000,302:112

二级参考文献13

  • 1江建军,雷永泉,孙大林,吴京,王启东.提高AB_5型贮氢合金电极材料循环寿命的途径[J].稀有金属材料与工程,1993,22(3):68-74. 被引量:20
  • 2[2]Ovshinsky S R, Fetcenko M A, Ross J. Science[J], 1993, 260:176
  • 3[3]Reilly J J, Adzic G D, Johnson J R et al. J Alloys Comp[J],1999, 293~295:569~582
  • 4[4]Dong-Myung Kim, Kuk-Jin Jang, Jai-Young Lee. J Alloys Comp[J], 1999, 293~295:583~592
  • 5[5]Don T Cromer, Clayton E Olsen. Acta Crysta[J], 1959, 12:689
  • 6[6]Parthe E, Lemaire R. Acta Cryst[J], 1975, B31:1 879
  • 7[7]Yartys V A et al. IntJ Hydrogen Energy[J], 1982, 7:957~965
  • 8[8]Kadir K, Sakai T, Uehara I. J Alloys Comp[J], 1997, 257:115~121
  • 9[9]Inui H, Yamamoto T, Zhang Di et al. J Alloys Comp[J], 1999,203~295:140~145
  • 10[10]Kohno T, Yoshida H, Kawashima F et al. J Alloys Comp[J],2000, 311: L5~L7

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引证文献5

二级引证文献10

稀有金属材料与工程
2006年 第9期

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