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  1. State of the Art of Rheology of Concentrated Suspensions

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    14 Feb 2023 | Contributor(s): Xuan Wang

  2. Structure Genome: Fill the Gap between Materials Genome and Structural Analysis

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    29 Nov 2014

    A new concept, Structure Genome (SG), is proposed to fill the gap between materials genome and structural analysis. SG acts as the basic building block of the structure connecting materials to structures and the mechanics of SG governs the necessary information to link materials genome and...

  3. Structure Genome: Fill the Gap between Materials Genome and Structural Analysis

    0.0 out of 5 stars 

    29 Nov 2014

    A new concept, Structure Genome (SG), is proposed to fill the gap between materials genome and structural analysis. SG acts as the basic building block of the structure connecting materials to structures and the mechanics of SG governs the necessary information to link materials genome and...

  4. TexGen4SC

    4.0 out of 5 stars 

    14 Feb 2014 | Tools

    Modeling of woven fabric composites generated by TexGen using SwiftComp

  5. TexGen4SC Tutorial #1: Homogenization Analysis of Textile Composites with Arbitrary Inter-ply Shifts

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    14 Feb 2014 | Downloads

    This tutorial shows how to use TexGen4SC to perform homogenization analysis of textile composites with arbitrary inter-ply shifts. A companion video is available on YouTube. TexGen4SC can be launched directly from https://cdmhub.org/tools/texgen4sc. A python script for the...

  6. The Mission, Vision and Programs of the Composites Design and Manufacturing HUB

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    28 May 2014 | Teaching Materials

    The presentation outlines the mission, vision and programs of the Composites Design and Manufacturing HUB as of October 2014.

  7. Variational Asymptotic Modeling of Composite Dimensionally Reducible Structures

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    28 May 2014 | Publications

    This is Prof. Yu's PhD dissertation. In this disseration, the variational asymptotic method has be used to provide a systematic, holistic, and rigorous approach to construct efficient yet accurate models for composite beams, plates, and shells.