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    A Lagrangian differencing dynamics method for granular flow modeling

    New search for: Peng, Chong
    New search for: Bašić, Martina
    New search for: Blagojević, Branko
    New search for: Bašić, Josip
    New search for: Wu, Wei

    Abstract In this paper, a new Lagrangian differencing dynamics (LDD) method is presented for the simulation of granular flows. LDD is a truly meshless method, which employs second-order consistent spatial operators derived from the Taylor expansion and point renormalization. A decoupled pressure-velocity formulation is employed to derive the pressure Poisson equation, which ensures smooth pressure results in time. Granular media are modeled as viscoplastic materials with the Drucker-Prager yield surface. The velocity equation is formulated and solved in an implicit form, in order to handle large viscosities from the constitutive model. Furthermore, a position-based dynamics technique is used to maintain uniform distribution of the Lagrangian points. The presented LDD method for granular flows is validated by simulating two numerical examples. The results are compared with experimental and numerical data from the literature.

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    A Lagrangian differencing dynamics method for granular flow modeling

    New search for: Peng, Chong
    New search for: Bašić, Martina
    New search for: Blagojević, Branko
    New search for: Bašić, Josip
    New search for: Wu, Wei

    Abstract In this paper, a new Lagrangian differencing dynamics (LDD) method is presented for the simulation of granular flows. LDD is a truly meshless method, which employs second-order consistent spatial operators derived from the Taylor expansion and point renormalization. A decoupled pressure-velocity formulation is employed to derive the pressure Poisson equation, which ensures smooth pressure results in time. Granular media are modeled as viscoplastic materials with the Drucker-Prager yield surface. The velocity equation is formulated and solved in an implicit form, in order to handle large viscosities from the constitutive model. Furthermore, a position-based dynamics technique is used to maintain uniform distribution of the Lagrangian points. The presented LDD method for granular flows is validated by simulating two numerical examples. The results are compared with experimental and numerical data from the literature.

    Access

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    Check availability in my library
    Order at Subito €

    A Lagrangian differencing dynamics method for granular flow modeling

    New search for: Peng, Chong
    New search for: Bašić, Martina
    New search for: Blagojević, Branko
    New search for: Bašić, Josip
    New search for: Wu, Wei

    Abstract In this paper, a new Lagrangian differencing dynamics (LDD) method is presented for the simulation of granular flows. LDD is a truly meshless method, which employs second-order consistent spatial operators derived from the Taylor expansion and point renormalization. A decoupled pressure-velocity formulation is employed to derive the pressure Poisson equation, which ensures smooth pressure results in time. Granular media are modeled as viscoplastic materials with the Drucker-Prager yield surface. The velocity equation is formulated and solved in an implicit form, in order to handle large viscosities from the constitutive model. Furthermore, a position-based dynamics technique is used to maintain uniform distribution of the Lagrangian points. The presented LDD method for granular flows is validated by simulating two numerical examples. The results are compared with experimental and numerical data from the literature.

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    Title:

    A Lagrangian differencing dynamics method for granular flow modeling

    Contributors:

    Peng, Chong (author) / Bašić, Martina (author) / Blagojević, Branko (author) / Bašić, Josip (author) / Wu, Wei (author)

    Published in:

    Computers and Geotechnics ; 137

    Publication date:

    2021-06-07

    ISSN:

    0266-352X

    DOI:

    https://doi.org/10.1016/j.compgeo.2021.104297

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Lagrangian differencing dynamics , Meshless method , Non-Newtonian flow , Drucker-Prager yield criterion , Granular flow , Granular impact on structures

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