A plasma drag hypervelocity particle accelerator (HYPER)

Autor: Steve R. Best, M. Frank Rose
Rok vydání: 1999
Předmět:
Zdroj: International Journal of Impact Engineering. 23:67-76
ISSN: 0734-743X
DOI: 10.1016/s0734-743x(99)00063-9
Popis: Current debris models are able to predict the growth of the space debris problem and suggest that spacecraft must employ armor or bumper shields for some orbital altitudes now and that the problem will become worse as a function of time. The practical upper limit to the velocity distribution is on the order of 40 km/s and is associated with the natural environment. The velocity distribution of the man-made component peaks at 9–10 km/s with maximum velocity in the 14–16 km/s range. Experience in space has verified that the “high probability of impact” particles are in the microgram to milligram range. These particles can have very significant effects on coatings, insulators, and thin metallic layers. The surface of thick materials becomes pitted and the local debris component is enhanced by ejecta from the impact events. In this paper, the HYPER facility is described which produces a reasonable simulation of the man-made space debris spectrum in a controlled environment. The facility capability is discussed in terms of drive geometry, energetics, velocity distribution, diagnostics, and projectile/debris loading. The facility has been used to study impact phenomena on Space Station Freedom's solar array structure, the calibration of space debris collectors, other solar array materials, potential structural materials for use in the space, electrical breakdown in the space environment, and as a means of clarifying or duplicating the impact phenomena on surfaces which have been exposed in space.
Databáze: OpenAIRE