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    RESEARCH ON CRASHWORTHINESS OF BIONIC PENTACLE THIN-WALLED STRUCTURE INSPIRED BY CARAMBOLA

    New search for: SUN YuZhou
    New search for: YANG ZhuoRan
    New search for: XIA Yan
    New search for: JIANG Han

    Thin-walled energy absorber plays an important role in aerospace, transportation and other fields. Inspired by carambola fruit with excellent crashworthiness, the bio-inspired pentacle thin-walled structure was designed. The deformation and energy absorption mechanism of the struct were analyzed by finite element simulation, experiment and theory. The influence of cross-section shapes and geometric parameters on the energy absorption characteristies were discussed. Investigations were carried out on the optimization effect of hierarchy and stiffener on crashworthiness. The results show that the bio-inspired pentacle thin-walled structure has regular progressive folding deformation mechanism. The crashworthiness properties of pentacle thin-walledstructure, such as specific energy absorption and crushing force efficiency, are significantly better than that of thin-walled structures with common sections, showing good engineering application potential.

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    RESEARCH ON CRASHWORTHINESS OF BIONIC PENTACLE THIN-WALLED STRUCTURE INSPIRED BY CARAMBOLA

    New search for: SUN YuZhou
    New search for: YANG ZhuoRan
    New search for: XIA Yan
    New search for: JIANG Han

    Thin-walled energy absorber plays an important role in aerospace, transportation and other fields. Inspired by carambola fruit with excellent crashworthiness, the bio-inspired pentacle thin-walled structure was designed. The deformation and energy absorption mechanism of the struct were analyzed by finite element simulation, experiment and theory. The influence of cross-section shapes and geometric parameters on the energy absorption characteristies were discussed. Investigations were carried out on the optimization effect of hierarchy and stiffener on crashworthiness. The results show that the bio-inspired pentacle thin-walled structure has regular progressive folding deformation mechanism. The crashworthiness properties of pentacle thin-walledstructure, such as specific energy absorption and crushing force efficiency, are significantly better than that of thin-walled structures with common sections, showing good engineering application potential.

    Access

    Download

    RESEARCH ON CRASHWORTHINESS OF BIONIC PENTACLE THIN-WALLED STRUCTURE INSPIRED BY CARAMBOLA

    New search for: SUN YuZhou
    New search for: YANG ZhuoRan
    New search for: XIA Yan
    New search for: JIANG Han

    Thin-walled energy absorber plays an important role in aerospace, transportation and other fields. Inspired by carambola fruit with excellent crashworthiness, the bio-inspired pentacle thin-walled structure was designed. The deformation and energy absorption mechanism of the struct were analyzed by finite element simulation, experiment and theory. The influence of cross-section shapes and geometric parameters on the energy absorption characteristies were discussed. Investigations were carried out on the optimization effect of hierarchy and stiffener on crashworthiness. The results show that the bio-inspired pentacle thin-walled structure has regular progressive folding deformation mechanism. The crashworthiness properties of pentacle thin-walledstructure, such as specific energy absorption and crushing force efficiency, are significantly better than that of thin-walled structures with common sections, showing good engineering application potential.

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    Download

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    Title:

    RESEARCH ON CRASHWORTHINESS OF BIONIC PENTACLE THIN-WALLED STRUCTURE INSPIRED BY CARAMBOLA

    Contributors:

    SUN YuZhou (author) / YANG ZhuoRan (author) / XIA Yan (author) / JIANG Han (author)

    Published in:

    Jixie qiangdu, Vol 46, Pp 40-47 (2024)

    Publication date:

    2024

    ISSN:

    1001-9669

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Crashworthiness , Thin-walled structure , Energy absorption , Finite element simulation , Structural bionics , Mechanical engineering and machinery , TJ1-1570 , Materials of engineering and construction. Mechanics of materials , TA401-492

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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