• Title/Summary/Keyword: Shape Memory Alloys

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Validation of Launch Vibration Isolation Performance of the Passive Vibration Isolator for the Scientific Payload BioCabinet for CAS500-3 (차세대중형위성 3호 과학탑재체 바이오캐비넷용 수동형 진동절연기의 발사진동 저감성능 검증)

  • Dong-Jae Seo;Yeon-Hyeok Park;Young-Jin Lee;Ji-Seung Lee;Kyung-Hee Kim;Soon-Hee Kim;Chan-Hum Park;Hyun-Ung Oh
    • Journal of Aerospace System Engineering
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    • v.18 no.4
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    • pp.81-88
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    • 2024
  • The payload BioCabinet of CAS500-3 is designed for 3D stem cell differentiation, culture, and analysis utilizing bio 3D printing techniques in space. The 3D printing technique was initially developed for orbital use; however, it lacks separate validation for extreme launch vibration environments, necessitating a design that mitigates the launch load on the payload. This paper proposes a passive vibration isolator with a low-stiffness elastic support structure and high damping characteristics to reduce the launch loads affecting the BioCabinet. We explore the high-damping characteristics through the superelastic effects of SMA (Shape Memory Alloys) and a multi-layered structure incorporating viscoelastic tape. The effectiveness of the proposed vibration isolation system was confirmed via launch vibration tests on a qualification model.