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    Numerical investigation of soil and buried structures using finite element analysis

    Neue Suche nach: Amin Gholi Zadeh

    Today the important of studying soil effect on behavior of soil  contacted structures such as foundations, piles,  retaining wall and other similar structures is so much that neglecting of soil-structure interaction effect can cause to untrue results. In this paper soil-structure interaction simulation was done by using Finite element method analysis with ABAQUS version 6.13-14.The results has been presented based on pile function in contact with soil, vertical stresses in soil and structures, pore pressure in drained and undrained condition and underground water level.Final conclusions revealed that pore pressure effect is not uniform on all parts of pile and amount of pore pressure increment in top elements is lower than down elements of  pile.Further it was proven that average amount of vertical stress on end of pile is    of this stress on top of the pile. thus it was concluded that 70% of pile bearing capacity is depend on friction of soil and pile contact surface.

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    Numerical investigation of soil and buried structures using finite element analysis

    Neue Suche nach: Amin Gholi Zadeh

    Today the important of studying soil effect on behavior of soil  contacted structures such as foundations, piles,  retaining wall and other similar structures is so much that neglecting of soil-structure interaction effect can cause to untrue results. In this paper soil-structure interaction simulation was done by using Finite element method analysis with ABAQUS version 6.13-14.The results has been presented based on pile function in contact with soil, vertical stresses in soil and structures, pore pressure in drained and undrained condition and underground water level.Final conclusions revealed that pore pressure effect is not uniform on all parts of pile and amount of pore pressure increment in top elements is lower than down elements of  pile.Further it was proven that average amount of vertical stress on end of pile is    of this stress on top of the pile. thus it was concluded that 70% of pile bearing capacity is depend on friction of soil and pile contact surface.

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    Numerical investigation of soil and buried structures using finite element analysis

    Neue Suche nach: Amin Gholi Zadeh

    Today the important of studying soil effect on behavior of soil  contacted structures such as foundations, piles,  retaining wall and other similar structures is so much that neglecting of soil-structure interaction effect can cause to untrue results. In this paper soil-structure interaction simulation was done by using Finite element method analysis with ABAQUS version 6.13-14.The results has been presented based on pile function in contact with soil, vertical stresses in soil and structures, pore pressure in drained and undrained condition and underground water level.Final conclusions revealed that pore pressure effect is not uniform on all parts of pile and amount of pore pressure increment in top elements is lower than down elements of  pile.Further it was proven that average amount of vertical stress on end of pile is    of this stress on top of the pile. thus it was concluded that 70% of pile bearing capacity is depend on friction of soil and pile contact surface.

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    Titel:

    Numerical investigation of soil and buried structures using finite element analysis

    Beteiligte:

    Meysam Shirzad Shahrivar (Autor:in) / Amin Gholi Zadeh (Autor:in)

    Erschienen in:

    Journal of Structural and Construction Engineering, Vol 3, Iss 4, Pp 97-104 (2017)

    Erscheinungsdatum:

    2017

    ISSN:

    2476-3977 , 2538-2616

    DOI:

    https://doi.org/10.22065/jsce.2016.41241

    Medientyp:

    Aufsatz (Zeitschrift)

    Format:

    Elektronische Ressource

    Sprache:

    Unbekannt

    Schlagwörter:

    soil and structures interaction , finite element analysis using abaqus software , pile bearing capacity , underground water level , pore water pressure , Bridge engineering , TG1-470 , Building construction , TH1-9745

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

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