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Title: A prediction of the thermodynamic, thermophysical, and mechanical properties of CrTaO4 from first principles

Journal Article · · Journal of the American Ceramic Society
DOI:https://doi.org/10.1111/jace.19390· OSTI ID:2281718
ORCiD logo [1];  [2];  [1]
  1. National Energy Technology Lab. (NETL), Albany, OR (United States)
  2. Arizona State Univ., Tempe, AZ (United States)
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It is reported that the self-forming CrTaO4 oxide scale can protect refractory high-entropy alloys from oxidation, superior to Cr2O3. In this paper, the phase stability, mechanical, and thermal properties of three polymorphous phases of CrTaO4 are systematically investigated from first-principles density functional theory calculations. The mechanical properties predicted using the strain–energy methods indicated that all three phases are mechanically stable. The temperature dependence of elastic constants and polycrystalline moduli of three phases demonstrated the thermal softening as temperature increase. The Helmholtz-free energies as a function of volume and temperature are derived from phonon dispersions within the quasi-harmonic approximation at six strained volumes. The calculated apparent bulk coefficients of thermal expansion of these three phases are evaluated, the highest value approximately 13.4× 10–6 K–1 within a temperature range of 500–2000 K for the rutile I41md phase. The lattice thermal conductivity calculated by the Debye–Callaway model suggested that the rutile type I41md phase has the lowest value of approximately 2.1 W/m/K at 1800 K. The other two phases, C2/m and P2/c, exhibit higher values due to relatively lower Grüneisen parameters and larger phonon velocities. The melting point of CrTaO4 is predicted to be between 1975 and 2449 K using ab initio molecular dynamics simulations. Finally, this work provides a comprehensive theoretical understanding of the thermodynamic, mechanical, and thermal properties for the new material CrTaO4 and serves as an example of a viable computational design strategy for improved oxidation resistance of refractory alloys at high temperatures.

Research Organization:
National Energy Technology Laboratory (NETL), Pittsburgh, PA, Morgantown, WV, and Albany, OR (United States); Lawrence Berkeley National Laboratory (LBNL), Berkeley, CA (United States). National Energy Research Scientific Computing Center (NERSC)
Sponsoring Organization:
USDOE Office of Fossil Energy (FE)
Grant/Contract Number:
AC02-05CH11231; ALCC-ERCAP0022624
OSTI ID:
2281718
Report Number(s):
DOE/NETL-2023/3905
Journal Information:
Journal of the American Ceramic Society, Vol. 106, Issue 12; ISSN 0002-7820
Publisher:
American Ceramic SocietyCopyright Statement
Country of Publication:
United States
Language:
English

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36 MATERIALS SCIENCE
density functional theory
mechanical properties
thermal conductivity
thermal expansion