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Volume 19 Issue 2
Feb.  2012
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Guang-hai Wang, Yue Zhang, Da-hai Zhang, and Jin-peng Fan, Design and calculation of low infrared transmittance and low emissivity coatings for heat radiative applications, Int. J. Miner. Metall. Mater., 19(2012), No. 2, pp. 179-184. https://doi.org/10.1007/s12613-012-0535-0
Cite this article as:
Guang-hai Wang, Yue Zhang, Da-hai Zhang, and Jin-peng Fan, Design and calculation of low infrared transmittance and low emissivity coatings for heat radiative applications, Int. J. Miner. Metall. Mater., 19(2012), No. 2, pp. 179-184. https://doi.org/10.1007/s12613-012-0535-0
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Design and calculation of low infrared transmittance and low emissivity coatings for heat radiative applications

  • 通讯作者:

    Yue Zhang    E-mail: zhangy@buaa.edu.cn

  • The infrared transmittance and emissivity of heat-insulating coatings pigmented with various structural particles were studied using Kubelka-Munk theory and Mie theory. The primary design purpose was to obtain the low transmittance and low emissivity coatings to reduce the heat transfer by thermal radiation for high-temperature applications. In the case of silica coating layers constituted with various structural titania particles (solid, hollow, and core-shell spherical), the dependence of transmittance and emissivity of the coating layer on the particle structure and the layer thickness was investigated and optimized. The results indicate that the coating pigmented with core-shell titania particles exhibits a lower infrared transmittance and a lower emissivity value than that with other structural particles and is suitable to radiative heat-insulating applications.
  • Design and calculation of low infrared transmittance and low emissivity coatings for heat radiative applications

    + Author Affiliations
    • The infrared transmittance and emissivity of heat-insulating coatings pigmented with various structural particles were studied using Kubelka-Munk theory and Mie theory. The primary design purpose was to obtain the low transmittance and low emissivity coatings to reduce the heat transfer by thermal radiation for high-temperature applications. In the case of silica coating layers constituted with various structural titania particles (solid, hollow, and core-shell spherical), the dependence of transmittance and emissivity of the coating layer on the particle structure and the layer thickness was investigated and optimized. The results indicate that the coating pigmented with core-shell titania particles exhibits a lower infrared transmittance and a lower emissivity value than that with other structural particles and is suitable to radiative heat-insulating applications.
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