材料科学
体积模量
压缩性
碳化钨
碳化物
亚稳态
钨
热力学
结构材料
复合材料
冶金
化学
物理
有机化学
作者
Huiyang Gou,Li Hou,Jingwu Zhang,Hui Li,Guifang Sun,Faming Gao
摘要
Using first-principles total energy calculations we investigate the structural, elastic, and electronic properties of OsB2 and OsB, respectively. The calculated equilibrium structural parameters of OsB2 are in agreement with the available experimental results. The calculations indicate that OsB in tungsten carbide is more energetically stable under the ambient condition than the metastable cesium chloride phase of OsB. Results of bulk modulus show that they are potential low compressible materials. The hardness of OsB2 is estimated by employing a semiempirical theory. The results indicate that OsB2 is an ultraincompressible material, but not a superhard material. The method designing superhard materials is different from one creating ultraincompressible materials.
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