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    Evaluation of Soil–Structure Interaction in Structure Models via Shaking Table Test

    New search for: Seongnoh Ahn
    New search for: Gun Park
    New search for: Hyungchul Yoon
    New search for: Jae-Hyeok Han
    New search for: Jongwon Jung

    Modeling the soil–structure interaction (SSI) in seismic design involves the use of soil response curves for single-degree-of-freedom (SDOF) structures; however, real structures have multiple degrees of freedom (MDOF). In this study, shaking-table-derived p-y curves for SDOF and MDOF superstructures were compared using numerical analysis. It was found that an MDOF structure experienced less displacement than an SDOF structure of the same weight, but the effect of increasing the DOF decreased at greater pile depths. Numerical analysis results estimated using the natural periods and mass participation rates of the structures were similar to those of shaking table tests. Abbreviations: finite element: FE; frequency response function: FRF; multiple degrees of freedom: MDOF; single degree of freedom: SDOF; soil–structure interaction: SSI.

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    Evaluation of Soil–Structure Interaction in Structure Models via Shaking Table Test

    New search for: Seongnoh Ahn
    New search for: Gun Park
    New search for: Hyungchul Yoon
    New search for: Jae-Hyeok Han
    New search for: Jongwon Jung

    Modeling the soil–structure interaction (SSI) in seismic design involves the use of soil response curves for single-degree-of-freedom (SDOF) structures; however, real structures have multiple degrees of freedom (MDOF). In this study, shaking-table-derived p-y curves for SDOF and MDOF superstructures were compared using numerical analysis. It was found that an MDOF structure experienced less displacement than an SDOF structure of the same weight, but the effect of increasing the DOF decreased at greater pile depths. Numerical analysis results estimated using the natural periods and mass participation rates of the structures were similar to those of shaking table tests. Abbreviations: finite element: FE; frequency response function: FRF; multiple degrees of freedom: MDOF; single degree of freedom: SDOF; soil–structure interaction: SSI.

    Access

    Download

    Evaluation of Soil–Structure Interaction in Structure Models via Shaking Table Test

    New search for: Seongnoh Ahn
    New search for: Gun Park
    New search for: Hyungchul Yoon
    New search for: Jae-Hyeok Han
    New search for: Jongwon Jung

    Modeling the soil–structure interaction (SSI) in seismic design involves the use of soil response curves for single-degree-of-freedom (SDOF) structures; however, real structures have multiple degrees of freedom (MDOF). In this study, shaking-table-derived p-y curves for SDOF and MDOF superstructures were compared using numerical analysis. It was found that an MDOF structure experienced less displacement than an SDOF structure of the same weight, but the effect of increasing the DOF decreased at greater pile depths. Numerical analysis results estimated using the natural periods and mass participation rates of the structures were similar to those of shaking table tests. Abbreviations: finite element: FE; frequency response function: FRF; multiple degrees of freedom: MDOF; single degree of freedom: SDOF; soil–structure interaction: SSI.

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    Title:

    Evaluation of Soil–Structure Interaction in Structure Models via Shaking Table Test

    Contributors:

    Seongnoh Ahn (author) / Gun Park (author) / Hyungchul Yoon (author) / Jae-Hyeok Han (author) / Jongwon Jung (author)

    Published in:

    Sustainability, Vol 13, Iss 9, p 4995 (2021)

    Publication date:

    2021

    ISSN:

    2071-1050

    DOI:

    https://doi.org/10.3390/su13094995

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    shaking table test , soil–structure interaction , p-y curve , pile foundation , seismic design , Environmental effects of industries and plants , TD194-195 , Renewable energy sources , TJ807-830 , Environmental sciences , GE1-350

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

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