Electrostatic behaviour of space used materials in regard of internal charging met on spacecrafts

This paper is dedicated to the characterisation of charging behaviour of space used polymers in space electron environment. Spacecrafts are indeed submitted in Medium Earth Orbit (MEO) to severe fluxes of electrons with energies ranging from a few keV to several MeV. For qualification of materials u...

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Bibliographic Details
Published inJournal of electrostatics Vol. 92; pp. 66 - 74
Main Authors Paulmier, T., Dirassen, B., Rey, R.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.04.2018
Elsevier
Subjects
Charging
Electron
Ionisation
Physics
Polymers
Radiation-induced conductivity (RIC)
Space Physics
Spacecraft
Radiation-induced conductivity (RIC)
Charging
Ionisation
Electron
Spacecraft
Model
Polymers
POLYMERS
ELECTRON
SATELLITE
POLYMERES
CONDUCTIVITE INDUITE PAR RADIATION (RIC)
IONISATION
RADIATION-INDUCED CONDUCTIVITY (RIC)
CHARGING
CHARGE
SPACECRAFT
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Summary:This paper is dedicated to the characterisation of charging behaviour of space used polymers in space electron environment. Spacecrafts are indeed submitted in Medium Earth Orbit (MEO) to severe fluxes of electrons with energies ranging from a few keV to several MeV. For qualification of materials used on satellites and the prediction of their electrostatic behaviour in space environment, it is therefore important to tests these materials in representative environment. These experiments have been carried out at ONERA, The French Aerospace Lab (Toulouse, France) in the SIRENE facility. Different polymers (PEEK, ETFE, Kapton®, polyurethane and silicone varnish, polyurethane based paint) have been characterised to extract the main electric parameter that steer their charging behaviour in space environment: the radiation induced conductivity (RIC). These materials have then been tested in representative environment so as to study the evolution of their conductivity and charging behaviour as a function of the received radiation dose (for low and high dose levels). From these experiments, it was possible to extract the physical parameters that steer RIC and assess numerically their charging levels in specific MEO environment. •The manuscript has been revised following all reviewer comments.•This paper deals with new experimental and numerical results on internal charging of space used materials.•This internal charging issue is of great concern for the spacecraft community especially in MEO environment met during electric orbit raising.•This paper highlights new and important features on the charging behaviour of space used polymers that may be critical in MEO.
ISSN:0304-3886
1873-5738
DOI:10.1016/j.elstat.2018.02.002