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    Estimation of maximum admissible precambering of steel beams

    New search for: Matos, Rui
    New search for: Candeias, Miguel
    New search for: Craveiro, Hélder

    Precambering of steel beams is a common process in construction to induce cold or heat deformation (parabola) to compensate for the deflections due to permanent dead loads and a fraction of a live load. However, the maximum allowable cambering (and consequently the minimum radius of curvature) before buckling of the element is not simple to be defined as it is dependent on the straightness of the beam and on the adopted cambering procedure. The main objective of this study is to describe and validate a numerical procedure (validated with experimental tests of beams with and without holes in the web) to properly assess the maximum load allowable. This numerical analysis was conducted including non‐linear material and geometrical imperfections (GMNIA). The effect of the magnitude of the imperfections as well as the impact of the distance between consecutive load application points have been considered and discussed.

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    Estimation of maximum admissible precambering of steel beams

    New search for: Matos, Rui
    New search for: Candeias, Miguel
    New search for: Craveiro, Hélder

    Precambering of steel beams is a common process in construction to induce cold or heat deformation (parabola) to compensate for the deflections due to permanent dead loads and a fraction of a live load. However, the maximum allowable cambering (and consequently the minimum radius of curvature) before buckling of the element is not simple to be defined as it is dependent on the straightness of the beam and on the adopted cambering procedure. The main objective of this study is to describe and validate a numerical procedure (validated with experimental tests of beams with and without holes in the web) to properly assess the maximum load allowable. This numerical analysis was conducted including non‐linear material and geometrical imperfections (GMNIA). The effect of the magnitude of the imperfections as well as the impact of the distance between consecutive load application points have been considered and discussed.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Estimation of maximum admissible precambering of steel beams

    New search for: Matos, Rui
    New search for: Candeias, Miguel
    New search for: Craveiro, Hélder

    Precambering of steel beams is a common process in construction to induce cold or heat deformation (parabola) to compensate for the deflections due to permanent dead loads and a fraction of a live load. However, the maximum allowable cambering (and consequently the minimum radius of curvature) before buckling of the element is not simple to be defined as it is dependent on the straightness of the beam and on the adopted cambering procedure. The main objective of this study is to describe and validate a numerical procedure (validated with experimental tests of beams with and without holes in the web) to properly assess the maximum load allowable. This numerical analysis was conducted including non‐linear material and geometrical imperfections (GMNIA). The effect of the magnitude of the imperfections as well as the impact of the distance between consecutive load application points have been considered and discussed.

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    Title:

    Estimation of maximum admissible precambering of steel beams

    Contributors:

    Matos, Rui (author) / Candeias, Miguel (author) / Craveiro, Hélder (author)

    Published in:

    ce/papers ; 6 ; 119-124

    Publication date:

    2023-09-01

    Size:

    6 pages

    ISSN:

    2509-7075

    DOI:

    https://doi.org/10.1002/cepa.2463

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Precambering , 3PBT , Filler beams , Numerical modelling , GMNIA analysis

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