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    Development of the cellular automata framework dedicated for metallic materials microstructure evolution models

    New search for: Rauch, Lukasz
    New search for: Madej, Lukasz
    New search for: Spytkowski, Patryk
    New search for: Golab, Rafal

    The main goal of the paper is to design and implement a framework based on the cellular automata (CA) method, which is dedicated to numerical simulations of microstructure evolution in metallic materials under thermal and mechanical processing. Major assumptions and implementation details of the proposed solution involving classes containing dedicated fields and methods are discussed. Finally, the cellular automata framework (CAF) is tested for selected case studies supported by the Windows Workflow Foundation (WWF) approach. Particular attention is put on modelling simple grain growth, static recrystallization and phase transformation phenomena occurring at the microstructure level. Obtained results of simulations as well as performance characteristics are also presented in the paper. As a result, the CA framework, which supports design of complex algorithms with flexible data flow and reusable components is proposed.

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    Development of the cellular automata framework dedicated for metallic materials microstructure evolution models

    New search for: Rauch, Lukasz
    New search for: Madej, Lukasz
    New search for: Spytkowski, Patryk
    New search for: Golab, Rafal

    The main goal of the paper is to design and implement a framework based on the cellular automata (CA) method, which is dedicated to numerical simulations of microstructure evolution in metallic materials under thermal and mechanical processing. Major assumptions and implementation details of the proposed solution involving classes containing dedicated fields and methods are discussed. Finally, the cellular automata framework (CAF) is tested for selected case studies supported by the Windows Workflow Foundation (WWF) approach. Particular attention is put on modelling simple grain growth, static recrystallization and phase transformation phenomena occurring at the microstructure level. Obtained results of simulations as well as performance characteristics are also presented in the paper. As a result, the CA framework, which supports design of complex algorithms with flexible data flow and reusable components is proposed.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Development of the cellular automata framework dedicated for metallic materials microstructure evolution models

    New search for: Rauch, Lukasz
    New search for: Madej, Lukasz
    New search for: Spytkowski, Patryk
    New search for: Golab, Rafal

    The main goal of the paper is to design and implement a framework based on the cellular automata (CA) method, which is dedicated to numerical simulations of microstructure evolution in metallic materials under thermal and mechanical processing. Major assumptions and implementation details of the proposed solution involving classes containing dedicated fields and methods are discussed. Finally, the cellular automata framework (CAF) is tested for selected case studies supported by the Windows Workflow Foundation (WWF) approach. Particular attention is put on modelling simple grain growth, static recrystallization and phase transformation phenomena occurring at the microstructure level. Obtained results of simulations as well as performance characteristics are also presented in the paper. As a result, the CA framework, which supports design of complex algorithms with flexible data flow and reusable components is proposed.

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    Title:

    Development of the cellular automata framework dedicated for metallic materials microstructure evolution models

    Additional title:

    Archiv.Civ.Mech.Eng

    Contributors:

    Rauch, Lukasz (author) / Madej, Lukasz (author) / Spytkowski, Patryk (author) / Golab, Rafal (author)

    Published in:

    Archives of Civil and Mechanical Engineering ; 15 ; 48-61

    Publication date:

    2015-03-01

    Size:

    14 pages

    ISSN:

    2083-3318

    DOI:

    https://doi.org/10.1016/j.acme.2014.06.006

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Multiscale modelling , Digital material representation , Workflow , Cellular automata Engineering , Civil Engineering , Mechanical Engineering , Structural Materials

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