在全电子水平上,基于广义梯度近似密度泛函和全势线性缀加平面波方法,计算出了LaNi5储氢合金固溶相α-LaNi5H0.5与中间相β-LaNi5H3的晶体结构、态密度和电荷密度等特征.在α相区域中,通过对5种不同间隙位置的能量计算得到12n位最稳定;点阵常数a随着H原子增多而增大,而c基本为一常数.在α→β相区域中,a值随着H原子的增多进一步增大,而c值增大相对较小.计算值与实验结果一致.
参考文献
| [1] | Flanagan T B, Wulff C A, Bowerman B S. J Solid State Chem, 1980; 34:215 |
| [2] | Murray J J, Post M L, Taylor J B. J Less-Common Met,1981; 80:211 |
| [3] | Feng Z K, Yang H X, Jiao Y L, Ma Z Q. Rare Met Mater Eng, 1990; (1): 59(冯治库,杨宏秀,焦玉琏,马忠乾.稀有金属材料与工程,1990;(1): 59) |
| [4] | Fischer P, Furrer A, Busch G, Schlapbach L. Phys Acta,1977; 50:421 |
| [5] | Soubeyroux J L, Percheron-Guégan A, Achard J C. J Less-Common Met, 1987; 129:181 |
| [6] | Kisi E H, Gray E M A, Kennedy S J. J Alloys Compd,1994; 216:213 |
| [7] | Hempelmann R, Richter D, Eckold G. J Less-Common Met, 1984; 104:1 |
| [8] | Nakamura H, Nguyen-Manh D, Pettifor D G. J Alloys Compd, 1998; 281:81 |
| [9] | Tatsumi K, Tanaka I, Inui H, Tanaka K, Yamaguchi M,Adachi H. Phys Rev, 2001; 64B: 184105 |
| [10] | Nomura K, Uruno H, Shinozuka H, Suda S, Ono S. J Less-Common Met, 1985; 107:221 |
| [11] | Akiba E, Nomura K, Ono S. J Less-Common Met, 1987;129:159 |
| [12] | Ono S, Nomura K, Akiba E. J Less-Common Met, 1985;113:113 |
| [13] | Akiba E, Hayakawa H, Ishido Y, Nomura K. Phys Chem,1989; 163:291 |
| [14] | Van Vucht J H N, Kuipers F A, Bruning H C M. Philips Res Rep, 1970; 25:133 |
| [15] | Blaha P, Schwarz K, Madsen G K H, Kvasnicka D, Luitz J. Computer Code WIEN2K, An Augmented Plane Wave Plus Local Orbital Program for Calculating Crystal Properties, Vienna, Austria: Vienna University of Technology,2001 |
| [16] | Westlake D G. J Less-Common Met, 1983; 90:251 |
| [17] | Qi X H, Gao T, Zhu Z H. J Atom Mol Phys, 2004; 21:366(齐新华,高涛,朱正和.原子与分子物理学报,2004;21:366) |
| [18] | Guo J, Wei W L, Ma S Y. Acta Metall Sin, 2003; 39:10(郭进,韦文楼,马树元.金属学报,2003;39:10) |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%