Abstract:The feasibility of hydrogen storage alloy prepared by spark plasma sintering (SPS) was introduced. Research progress in the application of SPS on preparation of hydrogen storage alloy was summarized according to the microstructure and hydrogen absorption/desorption properties of La-Mg-Ni system, Mg-based and Ti-V based alloy. It was pointed out that the improvement of hydrogen absorption/desorption properties of the alloy was attributed to the fact that SPS at appropriate temperature could promote the formation of new phase in hydrogen storage alloy and control the grain size of the alloy.
董小平, 杨丽颖, 庞艳荣, 李志远, 王 青. 放电等离子烧结制备储氢合金的应用研究现状[J]. , 2014, 24(05): 44-47.
DONG Xiao-ping, YANG Li-ying, PANG Yan-rong, LI Zhi-yuan, WANG Qing. Research status of application of spark plasma sintering on the preparation of hydrogen storage alloy. , 2014, 24(05): 44-47.
Zhang Z H, Liu Z F, Lu J F, et al.The sintering mechanism in spark plasma sintering — proof of the existence of spark discharge[J][J].Scripta Materialia, 2014, X(X):in press-X
[2]
Pfeiffer T V, Feng J, Schmidt-Ott A.New developments in spark production of nanoparticles[J].Advanced Powder Technology, 2014, 25(1):56-70
[3]
Suk N Y, Lee K S.Synthesis of composite metal hydride alloy of A2B and AB2 type by mechanical alloying and spark plasma sintering[J][J].Materials Science Forum, 2005, 475-479(X):2449-2452
Song X P, Zhang P L, Pei P, et al.The role of spark plasma sintering on the improvement of hydrogen storage properties of Mg-based composites[J].International Journal of Hydrogen Energy, 2010, 35(15):8080-8087
[6]
Pei P, Song X P, Liu J.et alImproving hydrogen storage properties of Laves phase related BCC solid solution alloy by SPS preparation method[J].International Journal of Hydrogen Energy, 2009, 34(20):8597-8602
[7]
Nobuki T, Kanekawa S, Hatate M, et al.Development of Mg based hydrogen absorbing alloys prepared by mechanical alloying[J].Journal of Alloys and Compounds, 2013, 580(S1):S259-S263
Serin V, Zhang J X, Magnén C, et al.Identification of the atomic scale structure of the La0.65Nd0.15Mg0.20Ni3.5 alloy synthesized by spark plasma sintering[J][J].Intermetallics, 2013, 32(X):103-108
[11]
Zhang J X, Benjamin V, Berard K, et al.Structural and chemical analyses of the new ternary La5MgNi24 phase synthesized by Spark Plasma Sintering and used as negative electrode material for Ni-MH batteries[J].International Journal of Hydrogen Energy, 2012, 37(6):5225-5233
[12]
Dong X P, Lü F X, Yang L Y, et al.Influence of spark plasma sintering temperature on electrochemical performance of La080Mg0.20Ni3.75 alloy[J].Materials Chemistry and Physics, 2008, 112(2):596-602
Liu J, Song X P, Pei P, et al.Hydrogen storage properties of Mg-50vol%V7.4Zr7.4Ti7.4Ni composite prepared by spark plasma sintering[J].International Journal of Hydrogen Energy, 2009, 34(10):4365-4379
[15]
Gialanella S, Ceccato R, Casari F, et al.Microstructural refinement using ball-milling and spark-plasma sintering of MgH2 based materials for hydrogen storage[J].Calphad: Computer Coupling of Phase Diagrams and Thermochemistry, 2009, 33(1):82-88
Liu J, Song X P, Pei P, et al.Hydrogen storage performance of Mg-based composited prepared by Spark plasma sintering[J].Journal of Alloys and Compounds, 2009, 486(1-2):338-342
[18]
Pei P, Song X P, Liu J, et al.Study on the hydrogen desorption mechanism of a Mg-V composite prepared by SPS[J].International Journal of Hydrogen Energy, 2012, 37(1):984-989
2014, Vol. 24 
