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    Improved Strength Design of Reinforced Concrete Hydraulic Structures-Research Support

    Neue Suche nach: S. C. Woodson
    Neue Suche nach: W. A. Price

    Strength design (SD) criteria for reinforced concrete hydraulic structures (RCHS) have been based on a procedure that resulted in equivalence with the working stress method given in Engineer Manual 1110-1-2101, dated 1963. Recent studies have been directed toward reducing the conservatism associated with the working-stress-equivalent SD procedure, thereby, improving the economy of RCHS. Parametric studies indicate that an adjustment to the ACI 318-89 load factors results in close agreement with working stress designs for tension-control failures and for pure compression failures. These are the failure zones that are of primary interest for the design of RCHS. Also, serviceability is a primary concern for RCHS. In regard to serviceability, a primary parameter considered in this study was the ratio p.. (steel ratio as a fraction of the balanced reinforcement ratio). Compression failures, Strength design, Reinforced concrete, Tension control failures, hydraulic structures.

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    Improved Strength Design of Reinforced Concrete Hydraulic Structures-Research Support

    Neue Suche nach: S. C. Woodson
    Neue Suche nach: W. A. Price

    Strength design (SD) criteria for reinforced concrete hydraulic structures (RCHS) have been based on a procedure that resulted in equivalence with the working stress method given in Engineer Manual 1110-1-2101, dated 1963. Recent studies have been directed toward reducing the conservatism associated with the working-stress-equivalent SD procedure, thereby, improving the economy of RCHS. Parametric studies indicate that an adjustment to the ACI 318-89 load factors results in close agreement with working stress designs for tension-control failures and for pure compression failures. These are the failure zones that are of primary interest for the design of RCHS. Also, serviceability is a primary concern for RCHS. In regard to serviceability, a primary parameter considered in this study was the ratio p.. (steel ratio as a fraction of the balanced reinforcement ratio). Compression failures, Strength design, Reinforced concrete, Tension control failures, hydraulic structures.

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    Improved Strength Design of Reinforced Concrete Hydraulic Structures-Research Support

    Neue Suche nach: S. C. Woodson
    Neue Suche nach: W. A. Price

    Strength design (SD) criteria for reinforced concrete hydraulic structures (RCHS) have been based on a procedure that resulted in equivalence with the working stress method given in Engineer Manual 1110-1-2101, dated 1963. Recent studies have been directed toward reducing the conservatism associated with the working-stress-equivalent SD procedure, thereby, improving the economy of RCHS. Parametric studies indicate that an adjustment to the ACI 318-89 load factors results in close agreement with working stress designs for tension-control failures and for pure compression failures. These are the failure zones that are of primary interest for the design of RCHS. Also, serviceability is a primary concern for RCHS. In regard to serviceability, a primary parameter considered in this study was the ratio p.. (steel ratio as a fraction of the balanced reinforcement ratio). Compression failures, Strength design, Reinforced concrete, Tension control failures, hydraulic structures.

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    Titel:

    Improved Strength Design of Reinforced Concrete Hydraulic Structures-Research Support

    Beteiligte:

    S. C. Woodson (Autor:in) / W. A. Price (Autor:in)

    Erscheinungsdatum:

    1992

    Format / Umfang:

    47 pages

    Medientyp:

    Report

    Format:

    Keine Angabe

    Sprache:

    Englisch

    Schlagwörter:

    Civil Engineering , Construction Equipment, Materials, & Supplies , Reinforced concrete , Agreements , Compression , Concrete , Control , Engineers , Failure , Hydraulics , Parameters , Ratios , Structures , Tension , Hydraulic structures , Strength

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