Earlier Shuttle flight experiments have shown atomic oxygen within the orbital environment can interact with many materials to produce surface recession and mass loss and combine catalytically with other constituents to generate visible and infrared glows. In addition to these effects, examinations of returned satellite hardware have shown many spacecraft materials are also susceptible to damage from high velocity impacts with orbital space debris. These effects are of particular concern for large, multi-mission spacecraft, such as Space Station and SDI operational satellites, that will operate in low-Earth orbit (LEO) during the late 1990's. Not only must these spacecraft include materials and exterior coatings that are resistant to atomic oxygen surface interactions, but these materials must also provide adequate protection against erosion and pitting that could result from numerous impacts with small particles (less than 100 microns) of orbital space debris. An overview of these concerns is presented, and activities now underway to develop materials and coatings are outlined that will provide adequate atomic protection for future spacecraft. The report also discusses atomic oxygen and orbital debris flight experiments now under development to expand our limited data base, correlate ground-based measurments with flight results, and develop an orbital debris collision warning system for use by future spacecraft.
In-Space Technology Development: Atomic Oxygen and Orbital Debris Effects
1989
42 pages
Report
Keine Angabe
Englisch
Manned Spacecraft , Corrosion & Corrosion Inhibition , Materials Degradation & Fouling , Coatings, Colorants, & Finishes , Earth orbital environments , Impact damage , Oxygen atoms , Protective coatings , Space debris , Spacecraft glow , Surface reactions , Erosion , Atomic excitations , Molecular excitation , Nitrogen , Nitrogen dioxide , Pitting , Space shuttle missions , Warning systems
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