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    Hierarchical composite honeycombs

    New search for: Zhao, Long
    New search for: Zheng, Qing
    New search for: Fan, Hualin
    New search for: Jin, Fengnian

    Highlights ► We designed and made hierarchical composite honeycombs. ► We revealed the ductile deformation and failure styles of the hierarchical structure. ► We proposed a model to analyze the plastic deformation of the structure. ► The hierarchical composite honeycomb has excellent energy absorption capacity.

    Abstract Hierarchical structures are predicted to have ultra-light weight and superior mechanical properties, including excellent anti-buckling ability and energy absorption capability. Based on the improvement of making technology, hierarchical composite honeycombs (HCHs) have been designed, made and tested. With woven textile sandwich walls, the HCH is ultra-light and renders relatively ideal complete stress–strain curve with a stable displacement plateau at a relative high stress level in compression. A plastic model was suggested based on tested failure maps to reveal the plastic deformation and energy absorbing mechanism of the HCH. The plastic model well fitted the tested curves and defines a lower limit of the plastic deformation curve.

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    Hierarchical composite honeycombs

    New search for: Zhao, Long
    New search for: Zheng, Qing
    New search for: Fan, Hualin
    New search for: Jin, Fengnian

    Highlights ► We designed and made hierarchical composite honeycombs. ► We revealed the ductile deformation and failure styles of the hierarchical structure. ► We proposed a model to analyze the plastic deformation of the structure. ► The hierarchical composite honeycomb has excellent energy absorption capacity.

    Abstract Hierarchical structures are predicted to have ultra-light weight and superior mechanical properties, including excellent anti-buckling ability and energy absorption capability. Based on the improvement of making technology, hierarchical composite honeycombs (HCHs) have been designed, made and tested. With woven textile sandwich walls, the HCH is ultra-light and renders relatively ideal complete stress–strain curve with a stable displacement plateau at a relative high stress level in compression. A plastic model was suggested based on tested failure maps to reveal the plastic deformation and energy absorbing mechanism of the HCH. The plastic model well fitted the tested curves and defines a lower limit of the plastic deformation curve.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Hierarchical composite honeycombs

    New search for: Zhao, Long
    New search for: Zheng, Qing
    New search for: Fan, Hualin
    New search for: Jin, Fengnian

    Highlights ► We designed and made hierarchical composite honeycombs. ► We revealed the ductile deformation and failure styles of the hierarchical structure. ► We proposed a model to analyze the plastic deformation of the structure. ► The hierarchical composite honeycomb has excellent energy absorption capacity.

    Abstract Hierarchical structures are predicted to have ultra-light weight and superior mechanical properties, including excellent anti-buckling ability and energy absorption capability. Based on the improvement of making technology, hierarchical composite honeycombs (HCHs) have been designed, made and tested. With woven textile sandwich walls, the HCH is ultra-light and renders relatively ideal complete stress–strain curve with a stable displacement plateau at a relative high stress level in compression. A plastic model was suggested based on tested failure maps to reveal the plastic deformation and energy absorbing mechanism of the HCH. The plastic model well fitted the tested curves and defines a lower limit of the plastic deformation curve.

    Access

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    Title:

    Hierarchical composite honeycombs

    Contributors:

    Zhao, Long (author) / Zheng, Qing (author) / Fan, Hualin (author) / Jin, Fengnian (author)

    Publication date:

    2012-03-07

    Size:

    6 pages

    ISSN:

    0261-3069

    DOI:

    https://doi.org/10.1016/j.matdes.2012.03.009

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    A. Composites , B. Honeycombs , F. Plastic behavior

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