Activation of Self-folding Origami in Microgravity Environment (AoSOME)
PI: Russell Mailen, Davide Guzzetti (Co-I), Auburn University
PI: Russell Mailen, Davide Guzzetti (Co-I), Auburn University
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Lightweight mechanisms are obtained by pre-straining the polymer so that it shrinks when heated above the glass transition temperature. Specific actuation/folding patterns may be obtained by controlling local energy absorption properties of the material, e.g. via coating. Local heating due to infrared (IR) light absorption by ink patterns produces a gradient of temperature and shrinking through the thickness of the sheet, which induces self-folding. This approach has been demonstrated in ground-based experiments, and the effects of parameters such as ink pattern geometry, darkness, and light intensity have been investigated. The effects of space environments, e.g. radiation and vacuum, on polymers have been evaluated through combinations of ground and on-orbit based testing. However, microgravity effects on self-folding can only be approximated in ground-based experiments for the simplest of fold patterns.
These flight tests will investigate self-folding of single fold and intersecting fold (e.g. Miura-Ori) patterns in a microgravity environment and compare the results to ground-based experiments as a step toward resolving unknown self-folding SMP behaviors. Characterization of self-folding in microgravity is necessary to advance the TRL for future applications in deployable structures.
NASA
Industry
Technology Details
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Selection DateEPSCoR22 (Aug 2022)
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Program StatusActive
- 0 Parabolic
Development Team
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PIRussell Mailen
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PI Organization
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Co-IDavide Guzzetti
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Co-I Organization
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SponsorNASA
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