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Thermal radiative properties of zirconium oxide films in the near‐infrared wavelengths

Yao Wang, Pei‐feng Hsu, Yingsang Wu

2022International Journal of Applied Ceramic Technology16 citationsDOI

Abstract

Abstract Thermal barrier coatings (TBCs) using yttria‐stabilized zirconium dioxide (YSZ) are widely used in gas turbines to protect metal components against the high combustion product temperature. Increasing combustion temperature and pressure, radiative heat transfer becomes an essential portion of the overall heat transfer in TBCs. This necessitates a greater understanding of the thermal radiative properties of YSZ films, especially in the near‐infrared wavelength range. The commonly used Kubelka–Munk (KM) method in the radiative property reduction from the measured transmittance and reflectance spectra of YSZ films can incur inaccurate results when the coating optical thickness is not sufficiently large. The discrete ordinates method with the asymmetric spherical ring angular quadrature can solve the radiative transfer equation with good accuracy in optically thin media. Considering the solution accuracy and computational efficiency, a hybrid approach of combining the KM and discrete ordinate methods is used to invert radiative properties. The absorption and scattering coefficients of air plasma sprayed YSZ films are determined over the wavelength range from 1 to 2.6 μm at room temperature. Over this near‐infrared wavelength range, the scattering coefficient decreases with the increasing wavelength, and the absorption coefficient is very small overall.

Topics & Concepts

Materials scienceRadiative transferThermal barrier coatingYttria-stabilized zirconiaThermal radiationTransmittanceWavelengthAttenuation coefficientCombustionInfraredOpticsScatteringComposite materialOptoelectronicsCubic zirconiaCoatingThermodynamicsCeramicPhysicsOrganic chemistryChemistryRadiative Heat Transfer StudiesWind and Air Flow StudiesHigh-Temperature Coating Behaviors
Thermal radiative properties of zirconium oxide films in the near‐infrared wavelengths | Litcius