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    Numerical Deformation Analysis of Bridge Concrete Girders

    New search for: Gintaris Kaklauskas
    New search for: Rokas Girdžius
    New search for: Darius Bačinskas
    New search for: Aleksandr Sokolov

    Present research was aiming at deriving tension stiffening relationship based on EC2 provisions for deformation analysis of bending RC structures. According to the algorithm proposed by the first author, a tension stiffening relationships were derived from moment-curvature diagrams of reinforced concrete beams calculated according to EC2 technique. The obtained tension stiffening relationship was applied in the parametric study, using non-linear finite element software ATENA and layered model. Theoretical results were compared with experimental data of beams reported in the literature. The defined tension stiffening relationship was also applied for calculation of moment-curvature response of reinforced concrete bridge girder. The analyses have shown that the deformations calculated using the derived tension stiffening relationship and the EC2 technique were in good agreement.

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    Numerical Deformation Analysis of Bridge Concrete Girders

    New search for: Gintaris Kaklauskas
    New search for: Rokas Girdžius
    New search for: Darius Bačinskas
    New search for: Aleksandr Sokolov

    Present research was aiming at deriving tension stiffening relationship based on EC2 provisions for deformation analysis of bending RC structures. According to the algorithm proposed by the first author, a tension stiffening relationships were derived from moment-curvature diagrams of reinforced concrete beams calculated according to EC2 technique. The obtained tension stiffening relationship was applied in the parametric study, using non-linear finite element software ATENA and layered model. Theoretical results were compared with experimental data of beams reported in the literature. The defined tension stiffening relationship was also applied for calculation of moment-curvature response of reinforced concrete bridge girder. The analyses have shown that the deformations calculated using the derived tension stiffening relationship and the EC2 technique were in good agreement.

    Access

    Download

    Numerical Deformation Analysis of Bridge Concrete Girders

    New search for: Gintaris Kaklauskas
    New search for: Rokas Girdžius
    New search for: Darius Bačinskas
    New search for: Aleksandr Sokolov

    Present research was aiming at deriving tension stiffening relationship based on EC2 provisions for deformation analysis of bending RC structures. According to the algorithm proposed by the first author, a tension stiffening relationships were derived from moment-curvature diagrams of reinforced concrete beams calculated according to EC2 technique. The obtained tension stiffening relationship was applied in the parametric study, using non-linear finite element software ATENA and layered model. Theoretical results were compared with experimental data of beams reported in the literature. The defined tension stiffening relationship was also applied for calculation of moment-curvature response of reinforced concrete bridge girder. The analyses have shown that the deformations calculated using the derived tension stiffening relationship and the EC2 technique were in good agreement.

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    Download

    Access

    Download

    Page navigation

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    Document information
    Title:

    Numerical Deformation Analysis of Bridge Concrete Girders

    Contributors:

    Gintaris Kaklauskas (author) / Rokas Girdžius (author) / Darius Bačinskas (author) / Aleksandr Sokolov (author)

    Published in:

    The Baltic Journal of Road and Bridge Engineering, Vol 3, Iss 2, Pp 51-56 (2008)

    Publication date:

    2008

    ISSN:

    1822-427X , 1822-4288

    DOI:

    https://doi.org/10.3846/1822-427X.2008.3.51-56

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    reinforced concrete , bridge , cracking , tension stiffening , curvature , numerical modelling , Highway engineering. Roads and pavements , TE1-450 , Bridge engineering , TG1-470

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

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