Enhanced thermal emittance of space radiators by ion-discharge chamber texturing
Abstract
The discharge chamber of a 30-cm argon ion source was successfully used to texture potential space radiator materials for the purpose of obtaining values of thermal emittance greater than 0.85 at 700 and 900 K. Some samples were also treated in acid prior to texturing. To evaluate the durability of the textured materials to atomic oxygen, samples were exposed to an RF air plasma environment. The spectral emittance between 2.0 anf 15.0 microns was measured before and after the textured materials were exposed to the plasma asher. The results indicate that copper with extremely high values of emittance after texturing (0.978 and 0.983) at 700 and 900 K, respectively,did not change its values of emittance after ashing, whereas the emittance of stainless steel fell below 0.85 after ashing. These data, along with scanning electron photomicrographs, and the results of texturing and ashing titanium and Nb(1)Zr are presented .
- Publication:
-
Presented at the International Conference on Metallurgical Coatings
- Pub Date:
- 1987
- Bibcode:
- 1987meco.conf.....M
- Keywords:
-
- Augmentation;
- Ion Beams;
- Spacecraft Radiators;
- Textures;
- Thermal Emission;
- Argon;
- Copper;
- Monatomic Gases;
- Oxygen;
- Photomicrography;
- Stainless Steels;
- Titanium;
- Physics (General)