介绍了3种组成的Ti-V合金(Ti0.76V0.24、Ti0.51V0.49和Ti0.25V0.75)及其氢化物的晶体结构确定方法.通过XRD分析和理论计算,确定这3种合金为bcc结构,它们的纯β相氢化物是fcc结构,并测得了这两类结构的晶胞参数.研究发现,Ti-V合金吸氢性能比金属V有所改善,H原子数与合金原子数之和的比大于1.0才能发生α相氢化物向β相氢化物的转变.
参考文献
| [1] | Reilly J J;Wiswall R H .Inverse hydrogen isotope effects in metal hydride systems[J].Inorganic Chemistry,1972,11(07):1691. |
| [2] | Heung L K;Tran R S .Metal hydride compacts for hydride isotope separation[J].Journal of the Less-Common Metals,1991,172-174:1313. |
| [3] | Satoshi Fukada;Tadashi Yamasaki .Experimental and analytical studies on chromatography of hydrogen-deuterium mixtures with vanadium particle fixed-bed[J].Journal of Nuclear Science and Technology,1990,27(07):642. |
| [4] | Buxbaum RE.;Smith DL.;Park JH. .Hydrogen solubility in V-4Cr-4Ti alloy[J].Journal of Nuclear Materials: Materials Aspects of Fission and Fusion,2002(Pt.a):576-579. |
| [5] | Toshinori Chuto;Manabu Satou et al.Fabrication using a levitation melting method of V-4Cr-4Ti-Si-Al-Y alloys and their mechanical properties[J].Journal of Nuclear Materials,2002,307-311:555. |
| [6] | Reilly J J;Wiswall R H .The higher hydrides of vanadium and niobium[J].Inorganic Chemistry,1970,9(07):1678. |
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