Share Email Print

Proceedings Paper

Black coatings for stray light and thermal control applications
Author(s): Kamil A. Moldosanov; Victor A. Kashirin; Alexander M. Skrynnikov; Irina A. Anisimova; Vladimir P. Anisimov; Gennady A. Kobtsov
Format Member Price Non-Member Price
PDF $17.00 $21.00

Paper Abstract

This report deals with comparison of the total hemispherical reflectances (THR), emissivities, and solar radiation absorption factors of coatings designed to reduce a stray light background and provide the thermal control both in space-based instruments and in land-based equipment. The THR measurement results are presented that have been carried out at 10 values of wavelengths within visible, near- ultraviolet, and near-infrared ranges (400 to 927 nm). The coatings being compared are as follows: chemically oxidized copper, coating on the basis of Al-N system, black-chromium coating, black bituminous paint, commercial black enamel used in solar converters, and plasmatron sputtered nichrome and constantan alloys. The chemically oxidized copper has been chosen as a material possessing high solar radiation absorption factor and low emissivity. Black-chromium coating is a widespread material for thermal control in space instruments. The black bituminous paint has been chosen as a possible cheap alternative solar absorber. Commercial black enamel served as a standard conventional coating used in some inexpensive solar converters. Nichrome and constantan have been also selected for investigations as the alloys having high specific resistivities, which promised that intensive electron scattering in skin layers of these alloys could take place, i.e., intensive transfer of energy and momentum received from the light wave to the lattice.

Paper Details

Date Published: 13 November 2001
PDF: 8 pages
Proc. SPIE 4458, Solar and Switching Materials, (13 November 2001); doi: 10.1117/12.448262
Show Author Affiliations
Kamil A. Moldosanov, Special Design Office OKB Aalam (Kirgizstan)
Victor A. Kashirin, Special Design Office OKB Aalam (Kirgizstan)
Alexander M. Skrynnikov, Kyrgyz-Russian Slavic Univ. (Kirgizstan)
Irina A. Anisimova, Institute of Chemistry and Chemical Technologies (Kirgizstan)
Vladimir P. Anisimov, Institute of Chemistry and Chemical Technologies (Kirgizstan)
Gennady A. Kobtsov, Institute of Physics (Kirgizstan)

Published in SPIE Proceedings Vol. 4458:
Solar and Switching Materials
Carl M. Lampert; Carl M. Lampert; Claes-Goran Granqvist; Claes-Goeran Granqvist; Keith L. Lewis; Keith L. Lewis, Editor(s)

© SPIE. Terms of Use
Back to Top