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    Investigation of Biaxial Stress States of UHPC Bridge Girders through Small Panel Testing and Finite Element Analysis

    New search for: Toutlemonde, François
    New search for: Resplendino, Jacques
    New search for: D'Alessandro, Kacie
    New search for: Cousins, Thomas
    New search for: Sotelino, Elisa

    The chapter presents a preliminary cracking failure model for biaxial tension‐compression stress states for untreated ultra‐high performance concrete (UHPC) through the use of finite element analyses and testing of ultra high performance UHPC panels. A finite element model was used to generate stress ratios for biaxial loading on UHPC panels. The cracking loads from experimental testing of panels were then used with the finite element results to generate points in the biaxial cracking failure model. Preliminary results show that there is potential to use the presented methods to generate a detailed failure model for standard steam‐treated UHPC. Results provided through the models could lead to a more detailed material model to be used in future analysis techniques, resulting in a better understanding of UHPC in biaxial stress states.

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    Investigation of Biaxial Stress States of UHPC Bridge Girders through Small Panel Testing and Finite Element Analysis

    New search for: Toutlemonde, François
    New search for: Resplendino, Jacques
    New search for: D'Alessandro, Kacie
    New search for: Cousins, Thomas
    New search for: Sotelino, Elisa

    The chapter presents a preliminary cracking failure model for biaxial tension‐compression stress states for untreated ultra‐high performance concrete (UHPC) through the use of finite element analyses and testing of ultra high performance UHPC panels. A finite element model was used to generate stress ratios for biaxial loading on UHPC panels. The cracking loads from experimental testing of panels were then used with the finite element results to generate points in the biaxial cracking failure model. Preliminary results show that there is potential to use the presented methods to generate a detailed failure model for standard steam‐treated UHPC. Results provided through the models could lead to a more detailed material model to be used in future analysis techniques, resulting in a better understanding of UHPC in biaxial stress states.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Investigation of Biaxial Stress States of UHPC Bridge Girders through Small Panel Testing and Finite Element Analysis

    New search for: Toutlemonde, François
    New search for: Resplendino, Jacques
    New search for: D'Alessandro, Kacie
    New search for: Cousins, Thomas
    New search for: Sotelino, Elisa

    The chapter presents a preliminary cracking failure model for biaxial tension‐compression stress states for untreated ultra‐high performance concrete (UHPC) through the use of finite element analyses and testing of ultra high performance UHPC panels. A finite element model was used to generate stress ratios for biaxial loading on UHPC panels. The cracking loads from experimental testing of panels were then used with the finite element results to generate points in the biaxial cracking failure model. Preliminary results show that there is potential to use the presented methods to generate a detailed failure model for standard steam‐treated UHPC. Results provided through the models could lead to a more detailed material model to be used in future analysis techniques, resulting in a better understanding of UHPC in biaxial stress states.

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    Title:

    Investigation of Biaxial Stress States of UHPC Bridge Girders through Small Panel Testing and Finite Element Analysis

    Contributors:

    Toutlemonde, François (editor) / Resplendino, Jacques (editor) / D'Alessandro, Kacie (author) / Roberts‐Wollmann, Carin (author) / Cousins, Thomas (author) / Sotelino, Elisa (author)

    Published in:

    Designing and Building with UHPFRC ; 619-638

    Publication date:

    2011-01-10

    Size:

    20 pages

    ISBN:

    9781118557839 , 9781848212718

    DOI:

    https://doi.org/10.1002/9781118557839.ch42

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    biaxial stress states , finite element analysis , bridge girders , ultra‐high performance concrete (UHPC) , panel testing

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