This paper describes the structural dynamic tests conducted in-vacuum on the Scalable Square Solar Sail (S(sup 4)) System 20-meter test article developed by ATK Space Systems as part of a ground demonstrator system development program funded by NASA's In-Space Propulsion program1-3. These tests were conducted for the purpose of validating analytical models that would be required by a flight test program to predict in space performance4. Specific tests included modal vibration tests on the solar sail system in a 1 Torr vacuum environment using various excitation locations and techniques including magnetic excitation at the sail quadrant corners, piezoelectric stack actuation at the mast roots, spreader bar excitation at the mast tips, and bi-morph piezoelectric patch actuation on the sail cords. The excitation methods were evaluated for their suitability to in-vacuum ground testing and their traceability to the development of on-orbit flight test techniques. The solar sail masts were also tested in ambient atmospheric conditions and these results are also discussed.
TESTING OF A 20-METER SOLAR SAIL SYSTEM
Spacecraft Propulsion Subcommittee Joint Meeting
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2005
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Monterey, CA, United States
2nd Liquid Propulsion Subcommittee
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2005
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Monterey, CA, United States
53rd JANNAF Propulsion Meeting
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2005
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Monterey, CA, United States
2005-01-01
Preprint
No indication
English
Ground Testing a 20-Meter Inflation Deployed Solar Sail
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