Accession Number:
AD1023812
Title:
Iodine Plasma (Electric Propulsion) Interaction with Spacecraft Materials
Descriptive Note:
[Technical Report, Final Report]
Corporate Author:
The University of Alabama
Personal Author(s):
Report Date:
2016-12-28
Pagination or Media Count:
30
Abstract:
Initial mission profile studies have shown iodine will enable micro-satellites to accomplish several Air Force missions using much smaller, cheaper satellites orbit raising, deorbiting, rendezvous, maintenance mission, orbital debris removal, retrieval of errant spacecraft. Iodine imparts volume-constrained spacecraft with up to three times the impulse compared to existing space propulsion systems i.e. Hall Effect Thruster with xenon. Iodine is stored as a solid no high pressure vessels, at density three times those of xenon impulse density two to three times. Iodine presents unique challenges, though. This research addressed the impact of iodine on solar panel surfaces, spacecraft structures and sensitive instruments on board satellites by providing predictive computational tools to satellite designers. Accumulation of iodine film on spacecraft surfaces will present several unique issues chemical erosion and iodine adsorptionabsorption. Of particular concern would be shorting dielectric surfaces, changing radiator emissivities, and damaging optical coatings. To date, chemical reactivity and chemical erosion of iodine with several satellite materials steel, aluminum, tantalum, etc. have been determined and tested.
Descriptors:
- surface plasmon resonance
- charge carriers
- energy transfer
- crystal lattices
- crystal structure
- nanoparticles
- optical properties
- chemistry
- crystals
- energy bands
- metal oxides
- nanocrystals
- spectra
- transition metals
- absorption spectra
- conduction bands
- electrons
- materials
- materials science
- physical chemistry
Subject Categories:
- Electric and Ion Propulsion