类金刚石BC₂塑性变形的力学性能及原子解释

Mechanical Properties and Atomic Explanation of Plastic Deformation for Diamond-Like BC₂.

作者信息

Zheng Baobing, Zhang Meiguang, Chang Shaomei

机构信息

College of Physics and Optoelectronics Technology, Nonlinear Research Institute, Baoji University of Arts and Sciences, Baoji 721016, China.

出版信息

Materials (Basel). 2016 Jun 24;9(7):514. doi: 10.3390/ma9070514.

DOI:10.3390/ma9070514

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5456893/

Abstract

Motivated by a recently predicted structure of diamond-like BC₂ with a high claimed hardness of 56 GPa (, , 22688-22690), we focus on whether this tetragonal BC₂ (-BC₂) is superhard or not in spite of such an ultrahigh theoretical hardness. The mechanical properties of BC₂ were thus further extended by using the first principles in the framework of density functional theory. Our results suggest that the Young's and shear moduli of BC₂ exhibit a high degree of anisotropy. For the weakest shear direction, BC₂ undergoes an electronic instability and structural collapse upon a shear strain of about 0.11, with its theoretically ideal strength of only 36.2 GPa. Specifically, the plastic deformation under shear strain along the (110)[001] direction can be attributed to the breaking of 1 B-C bonds.

摘要

受最近预测的类金刚石BC₂结构（其宣称具有高达56 GPa的硬度）的启发，尽管理论硬度超高，我们仍关注这种四方BC₂（-BC₂）是否超硬。因此，在密度泛函理论框架下，利用第一性原理进一步扩展了BC₂的力学性能。我们的结果表明，BC₂的杨氏模量和剪切模量表现出高度的各向异性。对于最弱的剪切方向，BC₂在约0.11的剪切应变下会发生电子不稳定性和结构崩塌，其理论理想强度仅为36.2 GPa。具体而言，沿(110)[001]方向的剪切应变下的塑性变形可归因于1个B-C键的断裂。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cfc5/5456893/7a69f5d43e84/materials-09-00514-g001.jpg

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