论文信息 - Ground Testing of the 16th Materials International Space Station Experiment Materials

Ground Testing of the 16th Materials International Space Station Experiment Materials

External spacecraft materials play an important role in satellite protection from the harsh space environment. Research has shown that the physical, chemical, and optical properties of matter change continuously as a result of exposure to solar radiation and aggressive chemical species produced in Earth’s upper atmosphere. Thorough knowledge of the material properties’ evolution throughout a planned mission lifetime helps to improve the reliability of spacecraft. Moreover, the establishment of correlation factors between true space exposure and accelerated space weather experiments at ground facilities enables accurate prediction of on-orbit material performance based on laboratory-based testing. The presented work aims to evaluate the radiation effects of a low-Earth-orbit environment, namely, exposure to the high-energy electrons and atomic oxygen (AO) of heritage and novel spacecraft material selection. The studied materials represent the “flight duplicates” of samples that are launched as a part of the 16th Materials International Space Station Experiment Flight Facility (MISSE-FF) mission in 2022.

[1] E. Plis,et al. Characterization of novel spacecraft materials under high energy electron and atomic oxygen exposure , 2022, AIAA SCITECH 2022 Forum.

[2] M. Millinger,et al. Space debris generation in GEO: Space materials testing and evaluation , 2021, Acta Astronautica.

[3] F. Ouchen,et al. Space survivability for printed electronics applications , 2021 .

[4] R. Melício,et al. System for space materials evaluation in LEO environment , 2020 .

[5] E. Plis,et al. Review of Radiation-Induced Effects in Polyimide , 2019, Applied Sciences.

[6] Chun-Gon Kim,et al. Enhanced durability of silanized multi-walled carbon nanotube/epoxy nanocomposites under simulated low earth orbit space environment , 2013 .

[7] Joyce A. Dever,et al. Materials International Space Station Experiment 5 Polymer Film Thermal Control Experiment , 2011 .

[8] Chun-Gon Kim,et al. Surface molecular degradation of 3D glass polymer composite under low earth orbit simulated space environment , 2010 .

[9] Christina A. Karniotis,et al. Evaluation of Protective Silicone/Siloxane Coatings in Simulated Low Earth Orbit Environment , 2006 .

[10] C. Tonon,et al. Degradation of the optical properties of ZnO-based thermal control coatings in simulated space environment , 2001 .

[11] M. Tagawa,et al. Atomic oxygen-induced polymer degradation phenomena in simulated LEO space environments: How do polymers react in a complicated space environment? , 2008 .