On the possibility of metal hydride formation - Part I. The synthesis of MgNi3B2 by mechanical milling and sintering
暂无分享,去创建一个
[1] Juan Rodríguez-Carvajal,et al. Recent advances in magnetic structure determination by neutron powder diffraction , 1993 .
[2] K. Yvon,et al. Investigation of the intermediate hydride phase β-LaNi5H3.5 by high pressure and high temperature gravimetry , 1991 .
[3] N. T. Kuznetsov,et al. The system LaNi5H2 , 1988 .
[4] E. Akiba,et al. Time-of-flight neutron powder diffraction study of the LaNi5D3 structure , 1988 .
[5] R. Griessen,et al. Heat of formation models , 1988 .
[6] C. Lartigue,et al. A new study of the structure of LaNi5D6.7 using a modified Rietveld method for the refinement of neutron powder diffraction data , 1987 .
[7] E. Akiba,et al. A new hydride phase of LaNi5H3 , 1987 .
[8] J. Soubeyroux,et al. Localization of hydrogen (deuterium) in α-LaNi5Hx (x = 0.1 and 0.4) , 1987 .
[9] A. Matsushita,et al. A new intermediate hydride in the LaNi5-H2 system studied by IN SITU X-ray diffractometry , 1986 .
[10] J. M. Hastings,et al. The crystal structure of LaNi5D7 , 1986 .
[11] E. Akiba,et al. Phase transformations of the LaNi5-H2 system , 1985 .
[12] J. Soubeyroux,et al. Hydrogen (deuterium) ordering in the β-LaNi5Dx > 5 phases: A neutron diffraction study , 1985 .
[13] D. Westlake. A geometric model for the stoichiometry and interstitial site occupancy in hydrides (deuterides) of LaNi5, LaNi4Al and LaNi4Mn , 1983 .
[14] D. Westlake. Site occupancies and stoichiometries in hydrides of intermetallic compounds: Geometric considerations , 1983 .
[15] R. Yamamoto,et al. Phase transformation and thermal expansion of MgNi alloys in a hydrogen atmosphere , 1982 .
[16] K. N. Semenenko,et al. Crystal chemistry of RT5H(D)x, RT2H(D)x and RT3H(D)x hydrides based on intermetallic compounds of CaCu5, MgCu2, MgZn2 and PuNi3 structure types , 1982 .
[17] C. Magee,et al. Relationships between intermetallic compound structure and hydride formation , 1981 .
[18] D. Westlake. Stoichiometries and interstitial site occupation in the hydrides of zrni and other isostructural intermetallic compounds , 1980 .
[19] C. Lartigue,et al. Neutron and X-ray diffraction profile analyses and structure of LaNi5, LaNi5−xAlx and LaNi5−xMnx intermetallics and their hydrides (deuterides) , 1980 .
[20] L. Schlapbach,et al. Surface effects and the formation of metal hydrides , 1980 .
[21] L. Schlapbach,et al. Surface analysis of Mg2Ni?Mg, Mg2Ni and Mg2Cu? , 1980 .
[22] H. Imamura,et al. Mechanism of hydrogen absorption by lanthanum-nickel (LaNi5) , 1979 .
[23] J. Reilly. Metal Hydride Technology* , 1979 .
[24] A. Switendick. Theoretical studies of hydrogen in metals: current status and further prospects , 1978 .
[25] J. Anderson,et al. Hydrogen absorption by AB$sub 5$ compounds , 1973 .
[26] K. Buschow,et al. Phase relations and hydrogen absorption in the lanthanum-nickel system , 1972 .
[27] H. Rietveld. A profile refinement method for nuclear and magnetic structures , 1969 .
[28] C. Huffine. CHAPTER 13 – Fabrication of Hydrides , 1968 .
[29] J. F. Stampfer,et al. THE MAGNESIUM-HYDROGEN SYSTEM , 1960 .