Structural, mechanical, electronic properties, and Debye temperature of quaternary carbide Ti 3 NiAl 2 C ceramics under high pressure: A first-principles study

Quaternary carbide Ti 3 NiAl 2 C ceramics has been investigated as a potential nuclear fusion structural material, and it has advantages in certain aspects compared with Ti 2 AlC, Ti 3 AlC 2 , and Ti 3 SiC 2 structural materials. In this paper, quaternary carbide Ti 3 NiAl 2 C ceramics is pressurize...

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Published in:Chinese physics B 2021-03, Vol.30 (3), p.36202
Main Authors: Jiang, Diyou, Xiao, Wenbo, Liu, Sanqiu
Format: Article
Language:English
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Summary:Quaternary carbide Ti 3 NiAl 2 C ceramics has been investigated as a potential nuclear fusion structural material, and it has advantages in certain aspects compared with Ti 2 AlC, Ti 3 AlC 2 , and Ti 3 SiC 2 structural materials. In this paper, quaternary carbide Ti 3 NiAl 2 C ceramics is pressurized to investigate its structural, mechanical, electronic properties, and Debye temperature. Quaternary carbide Ti 3 NiAl 2 C ceramics still maintains a cubic structure under pressure (0–110 GPa). At zero pressure, quaternary carbide Ti 3 NiAl 2 C ceramics only has three bonds: Ti–Al, Ni–Al, and Ti–C. However, at pressures of 20 GPa, 30 GPa, 40 GPa, 60 GPa, and 70 GPa, new Ti–Ni, Ti–Ti, Al–Al, Ti–Al, and Ti–Ti bonds form. When the pressure reaches 20 GPa, the covalent bonds change to metallic bonds. The volume of quaternary carbide Ti 3 NiAl 2 C ceramics can be compressed to 72% of its original volume at most. Pressurization can improve the mechanical strength and ductility of quaternary carbide Ti 3 NiAl 2 C ceramics. At 50–60 GPa, its mechanical strength can be comparable to pure tungsten, and the material changes from brittleness to ductility. However, the degree of anisotropy of quaternary carbide Ti 3 NiAl 2 C ceramics increases with the increasing pressure. In addition, we also investigated the Debye temperature, density, melting point, hardness, and wear resistance of quaternary carbide Ti 3 NiAl 2 C ceramics under pressure.
ISSN:1674-1056
DOI:10.1088/1674-1056/abca20