Implementation of a cryogenic facility for space debris analysis
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Abstract
This paper has resulted from a continued study of spacecraft material degradation and
space debris formation. The design and implementation of a thermal vacuum cycling cryogenic
facility for the evaluation of space debris generation at a low Earth orbit (LEO) is presented. The
facility used for spacecraft external material evaluation is described, and some of the obtained
results are presented. The infrastructure was developed in the framework of a study for the
European Space Agency (ESA). The main purpose of the cryogenic facility is to simulate the LEO
spacecraft environment, namely thermal cycling and vacuum ultraviolet (VUV) irradiation to
simulate the spacecraft material degradation and the generation of space debris. In a previous
work, some results under LEO test conditions showed the effectiveness of the cryogenic facility for
material evaluation, namely: the degradation of satellite paints with a change in their
thermo-optical properties, leading to the emission of cover flakes; the degradation of the
pressure-sensitive adhesive (PSA) used to glue Velcro’s to the spacecraft, and to glue multilayer
insulation (MLI) to the spacecraft’s. The paint flakes generated are space debris. Hence, in a
scenario of space missions where a spacecraft has lost the thermal shielding capability, the failure
of PSA tape and the loss of Velcro properties may contribute to the release of the full MLI blanket,
contributing to the generation of space debris that presents a growing threat to space missions in the main Earth orbits.