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    A simplified analytical method for response of an axially loaded pile group subjected to lateral soil movement

    New search for: Liang, Fayun
    New search for: Yu, Feng
    New search for: Han, Jie

    Abstract Based on the flexural differential equations of elastic piles and Winkler’s spring model of pile-soil interaction, the equations of axially loaded piles subjected to lateral soil movement were solved in this study. In the derivation, the flexural differential equations were established using a two-stage method and solved by the finite difference method. A method based on Mindlin’s solution was developed to analyze the shielding effect between piles, and this method was further applied to an axially loaded pile group with free heads or a pinned pile cap. A parametric study was conducted to investigate the influence of pile spacing, number, and location and magnitude of axial load. The results show that the axial load applied on piles or the pile cap affected the shielding effect and the response of the pile group subjected to lateral soil movement. The shielding effect depended on the pile spacing and number and the magnitude of axial loading.

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    A simplified analytical method for response of an axially loaded pile group subjected to lateral soil movement

    New search for: Liang, Fayun
    New search for: Yu, Feng
    New search for: Han, Jie

    Abstract Based on the flexural differential equations of elastic piles and Winkler’s spring model of pile-soil interaction, the equations of axially loaded piles subjected to lateral soil movement were solved in this study. In the derivation, the flexural differential equations were established using a two-stage method and solved by the finite difference method. A method based on Mindlin’s solution was developed to analyze the shielding effect between piles, and this method was further applied to an axially loaded pile group with free heads or a pinned pile cap. A parametric study was conducted to investigate the influence of pile spacing, number, and location and magnitude of axial load. The results show that the axial load applied on piles or the pile cap affected the shielding effect and the response of the pile group subjected to lateral soil movement. The shielding effect depended on the pile spacing and number and the magnitude of axial loading.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    A simplified analytical method for response of an axially loaded pile group subjected to lateral soil movement

    New search for: Liang, Fayun
    New search for: Yu, Feng
    New search for: Han, Jie

    Abstract Based on the flexural differential equations of elastic piles and Winkler’s spring model of pile-soil interaction, the equations of axially loaded piles subjected to lateral soil movement were solved in this study. In the derivation, the flexural differential equations were established using a two-stage method and solved by the finite difference method. A method based on Mindlin’s solution was developed to analyze the shielding effect between piles, and this method was further applied to an axially loaded pile group with free heads or a pinned pile cap. A parametric study was conducted to investigate the influence of pile spacing, number, and location and magnitude of axial load. The results show that the axial load applied on piles or the pile cap affected the shielding effect and the response of the pile group subjected to lateral soil movement. The shielding effect depended on the pile spacing and number and the magnitude of axial loading.

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    Title:

    A simplified analytical method for response of an axially loaded pile group subjected to lateral soil movement

    Contributors:

    Liang, Fayun (author) / Yu, Feng (author) / Han, Jie (author)

    Published in:

    KSCE Journal of Civil Engineering ; 17 ; 368-376

    Publication date:

    2013-03-01

    Size:

    9 pages

    ISSN:

    1976-3808 , 1226-7988

    DOI:

    https://doi.org/10.1007/s12205-013-1816-5

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    pile group , axial load , lateral soil movement , shielding effect , Winkler’s spring model Engineering , Civil Engineering , Industrial Pollution Prevention , Geotechnical Engineering & Applied Earth Sciences

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