Determination of Opaque Material Temperature from the Spectral Distribution of Emitted Radiation Intensity with Unknown Emissivity

The thermodynamic temperature of an opaque material with unknown emissivity was determined from the recorded distribution of spectral intensities of the emitted radiation. The initial system of equations was derived in the logarithmic form in accordance with the Planck formula. At the first stage, t...

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Published in	High temperature Vol. 56; no. 2; pp. 193 - 200
Main Author	Rusin, S. P.
Format	Journal Article
Language	English
Published	Moscow Pleiades Publishing 01.03.2018 Springer Nature B.V
Subjects	Atoms and Molecules in Strong Fields Classical and Continuum Physics Dependence Industrial Chemistry/Chemical Engineering Laser Matter Interaction Materials Science Physical Chemistry Physics Physics and Astronomy Spectra Spectral emissivity Spectral emittance Thermophysical Properties of Materials Tungsten
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Abstract	The thermodynamic temperature of an opaque material with unknown emissivity was determined from the recorded distribution of spectral intensities of the emitted radiation. The initial system of equations was derived in the logarithmic form in accordance with the Planck formula. At the first stage, the spectral dependence of the material emissivity was investigated with a special function—relative emissivity. Based on the analysis of spectral dependences of this function at different reference temperatures, a parametric model for the material emissivity was chosen. At the second stage, the desired parameters of the chosen model of spectral emissivity and the thermodynamic temperature of the material were determined. An example of the determination of a temperature of a tungsten sample from the spectral distribution of emitted radiation intensities is given. A method for narrowing the range, which includes the thermodynamic temperature of the material, is presented.
AbstractList	The thermodynamic temperature of an opaque material with unknown emissivity was determined from the recorded distribution of spectral intensities of the emitted radiation. The initial system of equations was derived in the logarithmic form in accordance with the Planck formula. At the first stage, the spectral dependence of the material emissivity was investigated with a special function—relative emissivity. Based on the analysis of spectral dependences of this function at different reference temperatures, a parametric model for the material emissivity was chosen. At the second stage, the desired parameters of the chosen model of spectral emissivity and the thermodynamic temperature of the material were determined. An example of the determination of a temperature of a tungsten sample from the spectral distribution of emitted radiation intensities is given. A method for narrowing the range, which includes the thermodynamic temperature of the material, is presented.
Author	Rusin, S. P.
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SubjectTerms	Atoms and Molecules in Strong Fields Classical and Continuum Physics Dependence Industrial Chemistry/Chemical Engineering Laser Matter Interaction Materials Science Physical Chemistry Physics Physics and Astronomy Spectra Spectral emissivity Spectral emittance Thermophysical Properties of Materials Tungsten
Title	Determination of Opaque Material Temperature from the Spectral Distribution of Emitted Radiation Intensity with Unknown Emissivity
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