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  • 2015-2019  (2)
  • 2015  (2)
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  • 2015-2019  (2)
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  • 1
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    Kinetic Monte Carlo Simulation of Oxygen Diffusion in Ytterbium Disilicate (2015)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: Silicon-based ceramic components for next-generation jet turbine engines offer potential weight savings, as well as higher operating temperatures, both of which lead to increased efficiency and lower fuel costs. Silicon carbide (SiC), in particular, offers low density, good strength at high temperatures, and good oxidation resistance in dry air. However, reaction of SiC with high-temperature water vapor, as found in the hot section of jet turbine engines in operation, can cause rapid surface recession, which limits the lifetime of such components. Environmental Barrier Coatings (EBCs) are therefore needed if long component lifetime is to be achieved. Rare earth silicates such as Yb2Si2O7 and Yb2SiO5 have been proposed for such applications; in an effort to better understand diffusion in such materials, we have performed kinetic Monte Carlo (kMC) simulations of oxygen diffusion in Ytterbium disilicate, Yb2- Si2O7. The diffusive process is assumed to take place via the thermally activated hopping of oxygen atoms among oxygen vacancy sites or among interstitial sites. Migration barrier energies are computed using density functional theory (DFT).
    Keywords: Propellants and Fuels
    Type: GRC-E-DAA-TN28216 , Materials Research Society Fall Meeting; Nov 29, 2015 - Dec 04, 2015; Boston, MA; United States
    Format: application/pdf
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  • 2
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    Unknown
    Kinetic Monte Carlo Simulation of Oxygen Diffusion in Ytterbium Disilicate (2015)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: Ytterbium disilicate is of interest as a potential environmental barrier coating for aerospace applications, notably for use in next generation jet turbine engines. In such applications, the transport of oxygen and water vapor through these coatings to the ceramic substrate is undesirable if high temperature oxidation is to be avoided. In an effort to understand the diffusion process in these materials, we have performed kinetic Monte Carlo simulations of vacancy-mediated and interstitial oxygen diffusion in Ytterbium disilicate. Oxygen vacancy and interstitial site energies, vacancy and interstitial formation energies, and migration barrier energies were computed using Density Functional Theory. We have found that, in the case of vacancy-mediated diffusion, many potential diffusion paths involve large barrier energies, but some paths have barrier energies smaller than one electron volt. However, computed vacancy formation energies suggest that the intrinsic vacancy concentration is small. In the case of interstitial diffusion, migration barrier energies are typically around one electron volt, but the interstitial defect formation energies are positive, with the result that the disilicate is unlikely to exhibit experience significant oxygen permeability except at very high temperature.
    Keywords: Nonmetallic Materials; Solid-State Physics
    Type: GRC-E-DAA-TN27550 , Materials Research Society Fall Meeting & Exhibit (2015 MRS); Nov 29, 2015 - Dec 04, 2015; Boston, MA; United States
    Format: application/pdf
    Location Call Number Expected Availability
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