SIMULTANEOUS MEASUREMENTS OF NORMAL SPECTRAL EMISSIVITY BY SPECTRAL RADIOMETRY AND LASER POLARIMETRY AT HIGH-TEMPERATURES IN MILLISECOND-RESOLUTION PULSE-HEATING EXPERIMENTS - APPLICATION TO MOLYBDENUM AND TUNGSTEN
A. Cezairliyan et al., SIMULTANEOUS MEASUREMENTS OF NORMAL SPECTRAL EMISSIVITY BY SPECTRAL RADIOMETRY AND LASER POLARIMETRY AT HIGH-TEMPERATURES IN MILLISECOND-RESOLUTION PULSE-HEATING EXPERIMENTS - APPLICATION TO MOLYBDENUM AND TUNGSTEN, International journal of thermophysics, 17(6), 1996, pp. 1455-1473
Spectral radiometry and laser polarimetry are two independent techniqu
es for the measurement of spectral emissivity of materials. In this pa
per, a high-speed system is described for the rapid measurement of nor
mal spectral emissivity of a specimen based on the simultaneous utiliz
ation of the two techniques. One of the goals of this work was to asce
rtain the accuracy of the laser polarimetry technique in measurement o
f normal spectral emissivity at high temperatures. To accomplish this
goal, the normal spectral emissivities, in the vicinity of 0.633 mu m,
of molybdenum and tungsten were measured by the two techniques over t
he temperature range 2000 to 2800 K. The results obtained by the two t
echniques are in agreement within 1%. The total uncertainty (two-stand
ard deviation level) in measurement of emissivity ty either spectral r
adiometry or laser polarimetry technique is estimated to be not more t
han +/- 2%.