Phase diagram, electronic, mechanical and thermodynamic properties of TiB2–ZrB2 solid solutions: A first-principles study

The stability, electronic and phonon structures, mechanical and thermodynamic properties as well optical spectra of the Ti1−xZrxB2 solid solutions were investigated in the framework of a first-principles approach. The miscibility gap was predicted with the consolute temperature TC = 1973 K and compo...

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Bibliographic Details
Published in:Materials chemistry and physics 2021-04, Vol.263, p.124340, Article 124340
Main Authors: Ivashchenko, V.I., Turchi, P.E.A., Shevchenko, V.I., Mediukh, N.R., Gorb, Leonid, Leszczynski, Jerzy
Format: Article
Language:English
Subjects:
Debye temperature
Diamond pyramid hardness
Elastic anisotropy
Elastic properties
Electronic properties
First principles
Fracture toughness
Mathematical analysis
Miscibility
Modulus of elasticity
Optical properties
Phase diagrams
Poisson's ratio
Refractory materials
Shear stress
Solid solutions
Spectra
Structural stability
Thermodynamic properties
Ti-Zr-B2
Titanium diboride
Zirconium compounds
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Summary:The stability, electronic and phonon structures, mechanical and thermodynamic properties as well optical spectra of the Ti1−xZrxB2 solid solutions were investigated in the framework of a first-principles approach. The miscibility gap was predicted with the consolute temperature TC = 1973 K and composition xC = 0.4. The negative deviation of the calculated bulk, shear, Young moduli, Debye temperature, Vickers hardness and fracture toughness from the mixing rule is observed. The ideal shear stress of 41.1 GPa for Ti0.5Zr0.5B2 was found to be lower compared to that for TiB2 (43.5 GPa) and ZrB2 (43.1 GPa). The calculated elastic moduli and Poisson ratio exhibit the spatial anisotropy inherent to hexagonal structures. It was shown that the thermodynamic characteristics of the Zr-rich solid solutions could be well reproduced in a temperature range up to 1000–1400 K using the harmonic approximation. The calculated dielectric constants εR(ω) and εI(ω), and optical reflectivity spectra R(ω) for Ti1−xZrxB2 were analyzed in comparison with available optical spectra of parent diborides from other authors. •For the first time, first-principles investigations of TiB2–ZrB2 solid solutions were performed.•The phase diagram of the random TiB2–ZrB2 alloys was constructed and analyzed.•The negative deviation of the calculated B, G, E, HV and KIC from the mixing rule was observed.•The optical spectra of Ti1-xZrxB2 are similar to the spectra of the parent diborides.•The calculated elastic moduli and Poisson ratio exhibit spatial anisotropy.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2021.124340