Abstract
The article investigates the change of radiative characteristics of composites based on carbon, quartz, and glass fabric and phenol formaldehyde resin in dependence on the wavelength, the temperature, and thermal effects.
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Sh. Park, Dzh. Kh. Landell, M. Dzh. Grin et al., Aérokosm. Tekh.,3, No. 5, 50–61 (1985).
N. A. Rubtsov and E. I. Averkov, Promyshlen. Teplotekh.,5, No. 5, 75–87 (1983).
R. G. Uilson and K. R. Spitser, Raket. Tekh. Kosmon.,6, No. 4, 108–117 (1968).
R. G. Uilson and K. R. Spitser, Raket. Tekh. Kosmon.,7, No. 11, 117–119 (1969).
Dzh. Kh. Cheng and G. V. Satton, Raket. Tekh. Kosmon.,7, No. 6, 147–153 (1969).
R. B. Poup, Raket. Tekh. Kosmon.,3, No. 12, 235–237 (1967).
L. S. Slobodkin, M. Ya. Flyaks, and B. V. Andreev, Inzh.-Fiz. Ah.,42, No. 3, 442–448 (1982).
L. S. Slobodkin and M. Ya. Flyaks, Heat and Mass Exchange: Achievements and Prospects, [in Russian], Minsk (1985), pp. 115–118.
L. S. Slobodkin and M. Ya. Flyaks, Heat and Mass Exchange: Physical Fundamentals and Research Methods [in Russian], Minsk (1980), pp. 106–108.
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Translated from Inzhenerno-fizicheskii Zhurnal, Vol. 61, No. 4, pp. 663–668, October, 1991.
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Flyaks, M.Y. Radiative properties of composite materials based on phenolic carbon and glass reinforced plastics. Journal of Engineering Physics 61, 1288–1293 (1991). https://doi.org/10.1007/BF00872602
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DOI: https://doi.org/10.1007/BF00872602