Abstract
Composite materials will be used more in future space structures, e.g., satellite and orbital station; but in vacuum space they will be submitted to a thermal cycle and to UV, protonic, and electronic radiation. So it is important to improve our knowledge concerning the evolution of composite materials in a space environment. We, therefore, worked on some electrooptical devices to follow the evolution of these materials in a simulated space environment.
© 1986 Optical Society of America
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