Atomic Oxygen Environment, Effects and Simulation Atomic oxygen is the most predominant constituent in the low Earth orbital environment between the altitudes of 180 and 650 km. It is also a major constituent of the Mars orbital environment. It is very chemically reactive and can oxidize materials on the outside of spacecraft. In many cases the reaction products are volatile which can lead to mechanical failure. Stable oxides can also form that change the optical or thermal properties of the material. The importance of understanding atomic oxygen reactions with materials has led to both flight experiments in low Earth orbit and ground-based testing in vacuum chambers containing atomic oxygen to study its’ effect on materials. This presentation will focus on defining atomic oxygen environments, discussing atomic oxygen effects on spacecraft materials, reviewing some methods of atomic oxygen simulation, and discussing differences in ground-based testing and space testing as well as synergistic effects.
Document ID
20230014020
Acquisition Source
Glenn Research Center
Document Type
Presentation
Authors
Sharon K R Miller (Glenn Research Center Cleveland, Ohio, United States)
Bruce A Banks (Science Applications International Corporation (United States) McLean, Virginia, United States)
Date Acquired
September 27, 2023
Subject Category
Chemistry and Materials (General)
Meeting Information
Meeting: Applied Space Environments Conference (ASEC) 2023
Location: Huntsville, AL
Country: US
Start Date: October 9, 2023
End Date: October 13, 2023
Sponsors: National Aeronautics and Space Administration
Funding Number(s)
WBS: 869021.03.22.01.22
Distribution Limits
Public
Copyright
Public Use Permitted.
Technical Review
Single Expert
Keywords
atomic oxygen, space environment, ground-based testing, flight experiments