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    Shear Strength of Pretensioned Concrete Girders in Negative Moment Regions

    Neue Suche nach: A. C. Powers
    Neue Suche nach: M. E. Kreger
    Neue Suche nach: J. E. Breen

    The report presents the results of an experimental study performed to evaluate the suitability of current AASHTO/ACI design provisions for shear as applied to thin-web pretensioned I-girders subject to shear and negative-moment bending. Eight tests were performed on four pretensioned beams with varying tendon profiles and amounts of shear reinforcement. Behavior was measured and observed to collect information on cracking loads, inclination and size of diagonal cracks, failure modes and loads, steel strains, and end slip of prestressing strands. Observed behavior was compared to predicted behavior based on the 1983 AASHTO Specifications for Highway Bridges and the 1983 ACI Building Code. In addition, the application of strut-and-tie models to thin-web, pretensioned I-beams was examined. Four variations of a basic strut-and-tie model were evaluated. Based on observed web-crushing failures, a strut-width definition for non-parallel diagonal struts was proposed in conjunction with a concrete efficiency factor definition for thin webs.

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    Shear Strength of Pretensioned Concrete Girders in Negative Moment Regions

    Neue Suche nach: A. C. Powers
    Neue Suche nach: M. E. Kreger
    Neue Suche nach: J. E. Breen

    The report presents the results of an experimental study performed to evaluate the suitability of current AASHTO/ACI design provisions for shear as applied to thin-web pretensioned I-girders subject to shear and negative-moment bending. Eight tests were performed on four pretensioned beams with varying tendon profiles and amounts of shear reinforcement. Behavior was measured and observed to collect information on cracking loads, inclination and size of diagonal cracks, failure modes and loads, steel strains, and end slip of prestressing strands. Observed behavior was compared to predicted behavior based on the 1983 AASHTO Specifications for Highway Bridges and the 1983 ACI Building Code. In addition, the application of strut-and-tie models to thin-web, pretensioned I-beams was examined. Four variations of a basic strut-and-tie model were evaluated. Based on observed web-crushing failures, a strut-width definition for non-parallel diagonal struts was proposed in conjunction with a concrete efficiency factor definition for thin webs.

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    Shear Strength of Pretensioned Concrete Girders in Negative Moment Regions

    Neue Suche nach: A. C. Powers
    Neue Suche nach: M. E. Kreger
    Neue Suche nach: J. E. Breen

    The report presents the results of an experimental study performed to evaluate the suitability of current AASHTO/ACI design provisions for shear as applied to thin-web pretensioned I-girders subject to shear and negative-moment bending. Eight tests were performed on four pretensioned beams with varying tendon profiles and amounts of shear reinforcement. Behavior was measured and observed to collect information on cracking loads, inclination and size of diagonal cracks, failure modes and loads, steel strains, and end slip of prestressing strands. Observed behavior was compared to predicted behavior based on the 1983 AASHTO Specifications for Highway Bridges and the 1983 ACI Building Code. In addition, the application of strut-and-tie models to thin-web, pretensioned I-beams was examined. Four variations of a basic strut-and-tie model were evaluated. Based on observed web-crushing failures, a strut-width definition for non-parallel diagonal struts was proposed in conjunction with a concrete efficiency factor definition for thin webs.

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    Titel:

    Shear Strength of Pretensioned Concrete Girders in Negative Moment Regions

    Beteiligte:

    A. C. Powers (Autor:in) / M. E. Kreger (Autor:in) / J. E. Breen (Autor:in)

    Erscheinungsdatum:

    1990

    Format / Umfang:

    130 pages

    Medientyp:

    Report

    Format:

    Keine Angabe

    Sprache:

    Englisch

    Schlagwörter:

    Construction Equipment, Materials, & Supplies , Highway Engineering , Prestressed concrete , Shear strength , Moments , Girders , Stress analysis , Bending , Mechanical properties , Loads(Forces) , Structural members , Stresses , Strains , Cracking(Fracturing) , Girder bridges

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