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    Mechanical Behavior of Hybrid Soil Nail-Anchor System

    New search for: Seo, Hyungjoon
    New search for: Lee, In-Mo
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    Abstract Prestressed soil-nail system has two reinforcing components: steel bar and PC strands. The steel bar with relatively less elongation yields earlier than PC strands. Thus, yield displacements of these two components should be matched to maximize the design load (capacity) of prestressed soil-nail. To achieve this, PC strands need to be prestressed before applying pullout load. In this study, load transfer mechanisms of soil-nail and prestressed soil-nail were determined based on skin friction theory and load transfer theory. The load transfer was derived analytically based on the assumption that skin friction at the interface was fully mobilized. It was then compared with results from field pullout tests performed to identify in-situ load transfer mechanism. Additionally, optimum prestress level required to maximize the pullout loading capacity was evaluated and compared with those obtained from field tests.

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    Mechanical Behavior of Hybrid Soil Nail-Anchor System

    New search for: Seo, Hyungjoon
    New search for: Lee, In-Mo
    New search for: Ryu, Young-Moo
    New search for: Jung, Jee-Hee

    Abstract Prestressed soil-nail system has two reinforcing components: steel bar and PC strands. The steel bar with relatively less elongation yields earlier than PC strands. Thus, yield displacements of these two components should be matched to maximize the design load (capacity) of prestressed soil-nail. To achieve this, PC strands need to be prestressed before applying pullout load. In this study, load transfer mechanisms of soil-nail and prestressed soil-nail were determined based on skin friction theory and load transfer theory. The load transfer was derived analytically based on the assumption that skin friction at the interface was fully mobilized. It was then compared with results from field pullout tests performed to identify in-situ load transfer mechanism. Additionally, optimum prestress level required to maximize the pullout loading capacity was evaluated and compared with those obtained from field tests.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Mechanical Behavior of Hybrid Soil Nail-Anchor System

    New search for: Seo, Hyungjoon
    New search for: Lee, In-Mo
    New search for: Ryu, Young-Moo
    New search for: Jung, Jee-Hee

    Abstract Prestressed soil-nail system has two reinforcing components: steel bar and PC strands. The steel bar with relatively less elongation yields earlier than PC strands. Thus, yield displacements of these two components should be matched to maximize the design load (capacity) of prestressed soil-nail. To achieve this, PC strands need to be prestressed before applying pullout load. In this study, load transfer mechanisms of soil-nail and prestressed soil-nail were determined based on skin friction theory and load transfer theory. The load transfer was derived analytically based on the assumption that skin friction at the interface was fully mobilized. It was then compared with results from field pullout tests performed to identify in-situ load transfer mechanism. Additionally, optimum prestress level required to maximize the pullout loading capacity was evaluated and compared with those obtained from field tests.

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    Title:

    Mechanical Behavior of Hybrid Soil Nail-Anchor System

    Contributors:

    Seo, Hyungjoon (author) / Lee, In-Mo (author) / Ryu, Young-Moo (author) / Jung, Jee-Hee (author)

    Published in:

    KSCE Journal of Civil Engineering ; 23 ; 4201-4211

    Publication date:

    2019-08-06

    Size:

    11 pages

    ISSN:

    1976-3808 , 1226-7988

    DOI:

    https://doi.org/10.1007/s12205-019-2268-3

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    prestressed soil-nail , load transfer , skin friction theory , field pullout tests , optimum prestress Engineering , Civil Engineering , Industrial Pollution Prevention , Geotechnical Engineering & Applied Earth Sciences

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