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    Lattice Discrete Particle Modeling of Concrete under Compressive Loading: Multiscale Experimental Approach for Parameter Determination

    New search for: Fascetti, Alessandro
    New search for: Bolander, John E.
    New search for: Nisticó, Nicola

    Lattice discrete particle models (LDPM) effectively relate concrete heterogeneity in terms of coarse aggregate–paste structure to damage patterns and load-displacement response. Interest in this type of model is enhanced by its ability to overcome issues that plague traditional methods, such as mesh dependence and need for energy regularization. Herein, an experimental procedure is developed to identify the mechanical parameters defined at the concrete mesoscale. The bounding surface of the LDPM is modified to accept the mesoscale parameters as inputs. Based on the parameter values identified through the multiscale experimental campaign, the macroscopic response to compressive load is simulated. Accuracy of the approach is demonstrated through comparisons with experimental results.

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    Lattice Discrete Particle Modeling of Concrete under Compressive Loading: Multiscale Experimental Approach for Parameter Determination

    New search for: Fascetti, Alessandro
    New search for: Bolander, John E.
    New search for: Nisticó, Nicola

    Lattice discrete particle models (LDPM) effectively relate concrete heterogeneity in terms of coarse aggregate–paste structure to damage patterns and load-displacement response. Interest in this type of model is enhanced by its ability to overcome issues that plague traditional methods, such as mesh dependence and need for energy regularization. Herein, an experimental procedure is developed to identify the mechanical parameters defined at the concrete mesoscale. The bounding surface of the LDPM is modified to accept the mesoscale parameters as inputs. Based on the parameter values identified through the multiscale experimental campaign, the macroscopic response to compressive load is simulated. Accuracy of the approach is demonstrated through comparisons with experimental results.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Lattice Discrete Particle Modeling of Concrete under Compressive Loading: Multiscale Experimental Approach for Parameter Determination

    New search for: Fascetti, Alessandro
    New search for: Bolander, John E.
    New search for: Nisticó, Nicola

    Lattice discrete particle models (LDPM) effectively relate concrete heterogeneity in terms of coarse aggregate–paste structure to damage patterns and load-displacement response. Interest in this type of model is enhanced by its ability to overcome issues that plague traditional methods, such as mesh dependence and need for energy regularization. Herein, an experimental procedure is developed to identify the mechanical parameters defined at the concrete mesoscale. The bounding surface of the LDPM is modified to accept the mesoscale parameters as inputs. Based on the parameter values identified through the multiscale experimental campaign, the macroscopic response to compressive load is simulated. Accuracy of the approach is demonstrated through comparisons with experimental results.

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    Document information
    Title:

    Lattice Discrete Particle Modeling of Concrete under Compressive Loading: Multiscale Experimental Approach for Parameter Determination

    Contributors:

    Fascetti, Alessandro (author) / Bolander, John E. (author) / Nisticó, Nicola (author)

    Published in:

    Journal of Engineering Mechanics ; 144

    Publication date:

    2018-05-17

    ISSN:

    0733-9399 , 1943-7889

    DOI:

    https://doi.org/10.1061/(ASCE)EM.1943-7889.0001480

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

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