This paper has constructed two kinds of atomic and electronic models for hexagonal β-Mo2C and orthorhombic α-Mo2C.The optimized lattice parameters, elastic constant matrixes and overlap population for Mo2C crystal cells have been obtained to realize the characterization of the hardness and melting point of the two structures by the first-principles plane wave pseudo potential method based on the density functional theory. The results reveal that the calculated lattice parameters of the Mo2C crystal cells agree with the experimental and other calculated data.The calculated melting point/hardness are 2715 K/11.38 GPa for β-Mo2C and 2699 K/10.57~12.67 GPa for α-Mo2C, respectively.The calculated results from the density of states (DOS)demonstrate that the hybridization effect between Mo-3d and C-2p states in α-Mo2C crystal cell is much stronger than that in β-Mo2C one.
参考文献
| [1] | R Ayer;P Machmeier .[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1998,29A:903. |
| [2] | R Ayer;P Machmeier .[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1993,24A:1943. |
| [3] | H R Yang;B LeeK;H Kwon .[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,1999,265:179. |
| [4] | E I Isaev;S I Simak;I A Abrikosov .[J].Journal of Applied Physics,2007,101:123519. |
| [5] | K.B. Panda;K.S. Ravi Chandran .First principles determination of elastic constants and chemical bonding of titanium boride (TIB) on the basis of density functional theory[J].Acta materialia,2006(6):1641-1657. |
| [6] | V V Brazhkin .[J].Philosophical Magazine A:Physics of Condensed Matter:Structure,Defects and Mechanical Properties,2002,82:231. |
| [7] | F M Gao;J L He;E D Wu .[J].Physical Review Letters,2003,91:015502. |
| [8] | F M Gao .[J].Physical Review B:Condensed Matter,2006,73:132104. |
| [9] | M C Payne;M P Teter;D C Allan .[J].Reviews of Modern Physics,1992,64:1045. |
| [10] | P L D Lindan;M D Segall;M J Probert et al.[J].Journal of Physics:Condensed Matter,2002,14:2717. |
| [11] | M Marlo;V Milman .[J].Physical Review B:Condensed Matter,2000,62:2899. |
| [12] | J A White;D M Bird .[J].Physical Review B:Condensed Matter,1994,50:4954. |
| [13] | E Pathé;V Sadagopan .[J].Acta Crystallographica,1963,16:202. |
| [14] | P Liu;A R José .[J].Journal of Chemical Physics,2004,120(11):5414. |
| [15] | J Ren;C F Huo;J G Wang;Y W Li and H J Jiao .[J].Surface Science,2005,596:212. |
| [16] | X F Hao;Y H Xu;Z J Wu et al.[J].Physical Review B:Condensed Matter,2006,74:224112. |
| [17] | Z J Wu;X F Hao;X J Liu;J Meng .[J].Physical Review B:Condensed Matter,2007,75:054115. |
| [18] | M Alouani;R C Albers .[J].Physical Review B:Condensed Matter,1991,43(08):6500. |
| [19] | M E Fine;L D Brown;H L Marcus .[J].Scripta Metallurgica,1984,18:951. |
| [20] | Q X Yu.[J].Mechanical Engineering,2001(01):9. |
| [21] | M. D. SEGALL;C. J. PICKARD;R. SHAH;M. C. PAYNE .Population analysis in plane wave electronic structure calculations[J].Molecular physics,1996(2):571-577. |
| [22] | M D Segall;C J Pickard;R Shah;M C Payne .[J].Physical Review B:Condensed Matter,1996,54:16317. |
| [23] | B F Levine .[J].Journal of Chemical Physics,1973,59:1463. |
| [24] | R Lo;K Fukui;S Otani;Y Iwasawa .[J].Surface Science,1999,440:L857. |
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