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    Study on Elasto-Plastic Stability Bearing Capacities for K6 Single-Layer Reticulated Shells under Fire Conditions

    New search for: Bai, Yin
    New search for: Zhai, Jian-Lei
    New search for: Wang, Yuan-Qing
    New search for: Shi, Yong-Jiu

    The elastic modulus of steel will decrease in case of high temperature which makes the reticulated shells easier to have the global instability phenomenon. In order to obtain the elasto-plastic stability bearing capacities for K6 single-layer reticulated shells [1], nonlinear finite analysis compete process was conducted by ANAYS software under on the two typical cases which include global non-uniform temperature distribution and localized high temperature. Based on the calculation formula for single-layer reticulated shells at ambient temperature, the calculation formula for elasto-plastic stability bearing capacity for K6 single-layer reticulated shells was obtained.

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    Study on Elasto-Plastic Stability Bearing Capacities for K6 Single-Layer Reticulated Shells under Fire Conditions

    New search for: Bai, Yin
    New search for: Zhai, Jian-Lei
    New search for: Wang, Yuan-Qing
    New search for: Shi, Yong-Jiu

    The elastic modulus of steel will decrease in case of high temperature which makes the reticulated shells easier to have the global instability phenomenon. In order to obtain the elasto-plastic stability bearing capacities for K6 single-layer reticulated shells [1], nonlinear finite analysis compete process was conducted by ANAYS software under on the two typical cases which include global non-uniform temperature distribution and localized high temperature. Based on the calculation formula for single-layer reticulated shells at ambient temperature, the calculation formula for elasto-plastic stability bearing capacity for K6 single-layer reticulated shells was obtained.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

    Study on Elasto-Plastic Stability Bearing Capacities for K6 Single-Layer Reticulated Shells under Fire Conditions

    New search for: Bai, Yin
    New search for: Zhai, Jian-Lei
    New search for: Wang, Yuan-Qing
    New search for: Shi, Yong-Jiu

    The elastic modulus of steel will decrease in case of high temperature which makes the reticulated shells easier to have the global instability phenomenon. In order to obtain the elasto-plastic stability bearing capacities for K6 single-layer reticulated shells [1], nonlinear finite analysis compete process was conducted by ANAYS software under on the two typical cases which include global non-uniform temperature distribution and localized high temperature. Based on the calculation formula for single-layer reticulated shells at ambient temperature, the calculation formula for elasto-plastic stability bearing capacity for K6 single-layer reticulated shells was obtained.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

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    Title:

    Study on Elasto-Plastic Stability Bearing Capacities for K6 Single-Layer Reticulated Shells under Fire Conditions

    Contributors:

    Bai, Yin (author) / Zhai, Jian-Lei (author) / Wang, Yuan-Qing (author) / Shi, Yong-Jiu (author)

    Published in:

    ICCAHE, International Conference on Civil, Architectural and Hydraulic Engineering, 2012 ; 1174-1178

    Applied Mechanics and Materials ; 204-208

    Publication date:

    2012

    Size:

    5 Seiten

    ISSN:

    1660-9336

    DOI:

    https://doi.org/10.4028/www.scientific.net/AMM.204-208.1174

    Type of media:

    Conference paper

    Type of material:

    Print

    Language:

    English

    Keywords:

    Berechnungsformel , Hochtemperatur , Umgebungstemperatur , Temperaturverteilung , Elastizitätsmodul

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