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    Experimental and Numerical Analysis of Fracture Processes in Concrete

    Neue Suche nach: E. Schlangen

    In practice, structures made of concrete are full of cracks. The strength of concrete is mainly determined by the tensile strength, which is about 10% of the compressive strength. Because of this, reinforcement (mostly steel) is used to increase the carrying capacity of the material and to control the development of cracks if concrete is loaded in tension. However for designing concrete structures, knowledge is required about the strength of the concrete material and about the process of fracture growth that takes place in the concrete. In the chapter the subject of this research, which deals with a particular part of fracture research in concrete, will be clarified. Furthermore a short summary of the contents of the report will be given.

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    Experimental and Numerical Analysis of Fracture Processes in Concrete

    Neue Suche nach: E. Schlangen

    In practice, structures made of concrete are full of cracks. The strength of concrete is mainly determined by the tensile strength, which is about 10% of the compressive strength. Because of this, reinforcement (mostly steel) is used to increase the carrying capacity of the material and to control the development of cracks if concrete is loaded in tension. However for designing concrete structures, knowledge is required about the strength of the concrete material and about the process of fracture growth that takes place in the concrete. In the chapter the subject of this research, which deals with a particular part of fracture research in concrete, will be clarified. Furthermore a short summary of the contents of the report will be given.

    Zugriff

    Zugriff über TIB
    Verfügbarkeit in meiner Bibliothek prüfen

    Experimental and Numerical Analysis of Fracture Processes in Concrete

    Neue Suche nach: E. Schlangen

    In practice, structures made of concrete are full of cracks. The strength of concrete is mainly determined by the tensile strength, which is about 10% of the compressive strength. Because of this, reinforcement (mostly steel) is used to increase the carrying capacity of the material and to control the development of cracks if concrete is loaded in tension. However for designing concrete structures, knowledge is required about the strength of the concrete material and about the process of fracture growth that takes place in the concrete. In the chapter the subject of this research, which deals with a particular part of fracture research in concrete, will be clarified. Furthermore a short summary of the contents of the report will be given.

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    Zugriff über TIB
    Verfügbarkeit in meiner Bibliothek prüfen

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    Titel:

    Experimental and Numerical Analysis of Fracture Processes in Concrete

    Beteiligte:

    E. Schlangen (Autor:in)

    Erscheinungsdatum:

    1993

    Format / Umfang:

    126 pages

    ISBN:

    90-9006167-3

    Medientyp:

    Report

    Format:

    Keine Angabe

    Sprache:

    Englisch

    Schlagwörter:

    Construction Equipment, Materials, & Supplies , Construction Materials, Components, & Equipment , Structural Analyses , Concrete , Fracture tests , Numerical analysis , Cracking(Fracturing) , Concrete beams , Loads(Forces) , Test equipment , Reprints , Foreign technology

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