Open AccessRadiative calibration of heat-flux sensors at NIST: Facilities and techniques
Author(s) -
A V. Murthy,
B.K. Tsai,
R. D. Saunders
Publication year - 2000
Publication title -
journal of research of the national institute of standards and technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.202
H-Index - 59
eISSN - 2165-7254
pISSN - 1044-677X
DOI - 10.6028/jres.105.033
Subject(s) - nist , black body radiation , calibration , enclosure , heat transfer , heat flux , nuclear engineering , flux (metallurgy) , materials science , repeatability , radiative transfer , environmental science , remote sensing , optics , physics , mechanics , radiation , computer science , chemistry , telecommunications , chromatography , quantum mechanics , natural language processing , geology , metallurgy , engineering
We present an overview of the National Institute of Standards and Technology high temperature blackbodies, both in operation and in development, suitable for heat-flux sensor calibration. Typical results of calibrations using the transfer technique in the 25 mm Variable-Temperature Blackbody are presented to demonstrate the long-term repeatability of the calibration technique. A comparative study of the absolute and transfer calibrations of a Gardon gage in a spherical blackbody with a cooled enclosure surrounding the gage housing was conducted. Results of this study demonstrated the influence of convection associated with absolute calibration of sensors in a cooled enclosure. Plans for further development of the transfer technique to higher heat-flux levels and the associated technical issues are discussed.
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