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    Incremental dynamic analysis of seismic collapse of super‐tall building structures

    New search for: Huang, Tiancan
    New search for: Ren, Xiaodan
    New search for: Li, Jie

    In the present work, the incremental dynamic analysis is performed for the super‐tall building structure of ZhongNan Center, which is more than 700 m high and is currently under construction in Suzhou, China. The Chi‐Chi earthquake record is used as the ground motion input. The peak ground accelerations are scaled to five levels including 0.2 g, 0.4 g, 0.8 g, 1.4 g, and 2.0 g. The plastic damage model is adopted to represent the material failure. The finite element model is developed by using fiber beam elements for beam‐columns and laminated shell elements for shear walls and slabs. Under the attack of strong seismic ground motions, the super tall structure experiences overall collapse, which is well captured by the developed finite element model. More importantly, the collapse patterns of the super tall structure are rather different under the excitations of earthquake records with same wave pattern but different peak accelerations.

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    Incremental dynamic analysis of seismic collapse of super‐tall building structures

    New search for: Huang, Tiancan
    New search for: Ren, Xiaodan
    New search for: Li, Jie

    In the present work, the incremental dynamic analysis is performed for the super‐tall building structure of ZhongNan Center, which is more than 700 m high and is currently under construction in Suzhou, China. The Chi‐Chi earthquake record is used as the ground motion input. The peak ground accelerations are scaled to five levels including 0.2 g, 0.4 g, 0.8 g, 1.4 g, and 2.0 g. The plastic damage model is adopted to represent the material failure. The finite element model is developed by using fiber beam elements for beam‐columns and laminated shell elements for shear walls and slabs. Under the attack of strong seismic ground motions, the super tall structure experiences overall collapse, which is well captured by the developed finite element model. More importantly, the collapse patterns of the super tall structure are rather different under the excitations of earthquake records with same wave pattern but different peak accelerations.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Incremental dynamic analysis of seismic collapse of super‐tall building structures

    New search for: Huang, Tiancan
    New search for: Ren, Xiaodan
    New search for: Li, Jie

    In the present work, the incremental dynamic analysis is performed for the super‐tall building structure of ZhongNan Center, which is more than 700 m high and is currently under construction in Suzhou, China. The Chi‐Chi earthquake record is used as the ground motion input. The peak ground accelerations are scaled to five levels including 0.2 g, 0.4 g, 0.8 g, 1.4 g, and 2.0 g. The plastic damage model is adopted to represent the material failure. The finite element model is developed by using fiber beam elements for beam‐columns and laminated shell elements for shear walls and slabs. Under the attack of strong seismic ground motions, the super tall structure experiences overall collapse, which is well captured by the developed finite element model. More importantly, the collapse patterns of the super tall structure are rather different under the excitations of earthquake records with same wave pattern but different peak accelerations.

    Access

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    Title:

    Incremental dynamic analysis of seismic collapse of super‐tall building structures

    Contributors:

    Huang, Tiancan (author) / Ren, Xiaodan (author) / Li, Jie (author)

    Published in:

    The Structural Design of Tall and Special Buildings ; 26

    Publication date:

    2017-11-01

    Size:

    11 pages

    ISSN:

    1541-7794 , 1541-7808

    DOI:

    https://doi.org/10.1002/tal.1370

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    structural collapse , super‐tall building , finite element method , incremental dynamic analysis , damage model , collapse pattern

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