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    A Linear Model of Processing Path in Cubic-Orthotropic System

    New search for: Li, D. S.
    New search for: Garmestani, H.

    Abstract Modeling the texture evolution in polycrystalline materials during thermomechanical processing is an important aspect of the newly developed design methodology, microstructure sensitive design (MSD). The texture coefficients are used in this study as a representation of microstructure and their evolution describes the processing path. A new methodology based on a conservation principle in orientation space is utilized in this work to model the processing path in cubic-orthotropic system. Least squares error method was used to improve the accuracy of simulation results from the processing path function developed in this study. The processing path function developed in this study empowers the MSD users to find out how to optimize and tailor microstructures with desired properties.

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    A Linear Model of Processing Path in Cubic-Orthotropic System

    New search for: Li, D. S.
    New search for: Garmestani, H.

    Abstract Modeling the texture evolution in polycrystalline materials during thermomechanical processing is an important aspect of the newly developed design methodology, microstructure sensitive design (MSD). The texture coefficients are used in this study as a representation of microstructure and their evolution describes the processing path. A new methodology based on a conservation principle in orientation space is utilized in this work to model the processing path in cubic-orthotropic system. Least squares error method was used to improve the accuracy of simulation results from the processing path function developed in this study. The processing path function developed in this study empowers the MSD users to find out how to optimize and tailor microstructures with desired properties.

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    A Linear Model of Processing Path in Cubic-Orthotropic System

    New search for: Li, D. S.
    New search for: Garmestani, H.

    Abstract Modeling the texture evolution in polycrystalline materials during thermomechanical processing is an important aspect of the newly developed design methodology, microstructure sensitive design (MSD). The texture coefficients are used in this study as a representation of microstructure and their evolution describes the processing path. A new methodology based on a conservation principle in orientation space is utilized in this work to model the processing path in cubic-orthotropic system. Least squares error method was used to improve the accuracy of simulation results from the processing path function developed in this study. The processing path function developed in this study empowers the MSD users to find out how to optimize and tailor microstructures with desired properties.

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    Title:

    A Linear Model of Processing Path in Cubic-Orthotropic System

    Contributors:

    Li, D. S. (author) / Garmestani, H. (author)

    Published in:

    IUTAM Symposium on Multiscale Modeling and Characterization of Elastic-Inelastic Behavior of Engineering Materials ; 307-314

    Solid Mechanics and Its Applications ; 114

    Publication date:

    2004-01-01

    Size:

    8 pages

    ISBN:

    978-90-481-6529-2 , 978-94-017-0483-0

    ISSN:

    0925-0042

    DOI:

    https://doi.org/10.1007/978-94-017-0483-0_38

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    microstructure , texture , thermomechanical processes , polycrystalline material , processing path Engineering , Theoretical and Applied Mechanics , Characterization and Evaluation of Materials , Mechanics

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