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    Enhancing Printable Concrete Thixotropy by High Shear Mixing

    New search for: Vandenberg, Aileen
    New search for: Bessaies-Bey, Hela
    New search for: Wille, Kay
    New search for: Roussel, Nicolas

    Abstract Our results show that the storage elastic modulus as a function of time increases at a higher rate for cement paste mixed at higher vesus lower mixing intensity. Hence, higher mixing appears to be enhancing thixotropy. Using calorimetry analysis we find that higher mixing decreases the setting time and enhances the peak of the heat flow. By analyzing the nanoparticles present in the suspending fluid of the cement paste, we show, in accordance with literature, that an appropriate combination of mixing energy and super-plasticizer dosage promotes hydration by scratching hydrates from the surface of cement particles, stabilizing them in the suspending fluid and hence generating additional nucleation surfaces. These results open the door for the design of printing heads including high-shear micro mixers allowing for a faster liquid-to-solid transition of the printable material.

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    Enhancing Printable Concrete Thixotropy by High Shear Mixing

    New search for: Vandenberg, Aileen
    New search for: Bessaies-Bey, Hela
    New search for: Wille, Kay
    New search for: Roussel, Nicolas

    Abstract Our results show that the storage elastic modulus as a function of time increases at a higher rate for cement paste mixed at higher vesus lower mixing intensity. Hence, higher mixing appears to be enhancing thixotropy. Using calorimetry analysis we find that higher mixing decreases the setting time and enhances the peak of the heat flow. By analyzing the nanoparticles present in the suspending fluid of the cement paste, we show, in accordance with literature, that an appropriate combination of mixing energy and super-plasticizer dosage promotes hydration by scratching hydrates from the surface of cement particles, stabilizing them in the suspending fluid and hence generating additional nucleation surfaces. These results open the door for the design of printing heads including high-shear micro mixers allowing for a faster liquid-to-solid transition of the printable material.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Enhancing Printable Concrete Thixotropy by High Shear Mixing

    New search for: Vandenberg, Aileen
    New search for: Bessaies-Bey, Hela
    New search for: Wille, Kay
    New search for: Roussel, Nicolas

    Abstract Our results show that the storage elastic modulus as a function of time increases at a higher rate for cement paste mixed at higher vesus lower mixing intensity. Hence, higher mixing appears to be enhancing thixotropy. Using calorimetry analysis we find that higher mixing decreases the setting time and enhances the peak of the heat flow. By analyzing the nanoparticles present in the suspending fluid of the cement paste, we show, in accordance with literature, that an appropriate combination of mixing energy and super-plasticizer dosage promotes hydration by scratching hydrates from the surface of cement particles, stabilizing them in the suspending fluid and hence generating additional nucleation surfaces. These results open the door for the design of printing heads including high-shear micro mixers allowing for a faster liquid-to-solid transition of the printable material.

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    Title:

    Enhancing Printable Concrete Thixotropy by High Shear Mixing

    Contributors:

    Vandenberg, Aileen (author) / Bessaies-Bey, Hela (author) / Wille, Kay (author) / Roussel, Nicolas (author)

    Published in:

    First RILEM International Conference on Concrete and Digital Fabrication – Digital Concrete 2018 ; 94-101

    RILEM Bookseries ; 19

    Publication date:

    2018-08-30

    Size:

    8 pages

    ISBN:

    978-3-319-99519-9 , 978-3-319-99518-2

    ISSN:

    2211-0844 , 2211-0852

    DOI:

    https://doi.org/10.1007/978-3-319-99519-9_9

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Thixotropy , Nanoparticles , Mixing , Cement , Calorimetry , DLS Engineering , Building Materials , Structural Materials , Solid Mechanics

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