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    Environmental Impacts of 6-Axes Robotic Arm for 3D Concrete Printing

    New search for: Bos, Freek P.
    New search for: Lucas, Sandra S.
    New search for: Wolfs, Rob J.M.
    New search for: Salet, Theo A.M.
    New search for: Kuzmenko, Kateryna
    New search for: Feraille, Adélaïde
    New search for: Baverel, Olivier
    New search for: Roussel, Nicolas

    This paper presents an environmental assessment of a 6-Axis robotic Arm for extrusion-based 3D Concrete Printing technology using Life Cycle Assessment method. In addition, the other components of a printing cell are assembled within a life cycle model and the relative contribution of the cell to the printing process is evaluated. The results show that, per one hour of printing, an environmental impact coming from the production phase of robotic printing cell would represent 2,2 kg CO2 Eq for the category of Climate Change. Hourly contributions are also calculated for the rest of environmental indicators.

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    Environmental Impacts of 6-Axes Robotic Arm for 3D Concrete Printing

    New search for: Bos, Freek P.
    New search for: Lucas, Sandra S.
    New search for: Wolfs, Rob J.M.
    New search for: Salet, Theo A.M.
    New search for: Kuzmenko, Kateryna
    New search for: Feraille, Adélaïde
    New search for: Baverel, Olivier
    New search for: Roussel, Nicolas

    This paper presents an environmental assessment of a 6-Axis robotic Arm for extrusion-based 3D Concrete Printing technology using Life Cycle Assessment method. In addition, the other components of a printing cell are assembled within a life cycle model and the relative contribution of the cell to the printing process is evaluated. The results show that, per one hour of printing, an environmental impact coming from the production phase of robotic printing cell would represent 2,2 kg CO2 Eq for the category of Climate Change. Hourly contributions are also calculated for the rest of environmental indicators.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Environmental Impacts of 6-Axes Robotic Arm for 3D Concrete Printing

    New search for: Bos, Freek P.
    New search for: Lucas, Sandra S.
    New search for: Wolfs, Rob J.M.
    New search for: Salet, Theo A.M.
    New search for: Kuzmenko, Kateryna
    New search for: Feraille, Adélaïde
    New search for: Baverel, Olivier
    New search for: Roussel, Nicolas

    This paper presents an environmental assessment of a 6-Axis robotic Arm for extrusion-based 3D Concrete Printing technology using Life Cycle Assessment method. In addition, the other components of a printing cell are assembled within a life cycle model and the relative contribution of the cell to the printing process is evaluated. The results show that, per one hour of printing, an environmental impact coming from the production phase of robotic printing cell would represent 2,2 kg CO2 Eq for the category of Climate Change. Hourly contributions are also calculated for the rest of environmental indicators.

    Access

    Check access
    Check availability in my library
    Order at Subito €

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    Document information
    Title:

    Environmental Impacts of 6-Axes Robotic Arm for 3D Concrete Printing

    Additional title:

    RILEM Bookseries

    Contributors:

    Bos, Freek P. (editor) / Lucas, Sandra S. (editor) / Wolfs, Rob J.M. (editor) / Salet, Theo A.M. (editor) / Kuzmenko, Kateryna (author) / Feraille, Adélaïde (author) / Baverel, Olivier (author) / Roussel, Nicolas (author)

    Conference:

    RILEM International Conference on Concrete and Digital Fabrication ; 2020 ; Eindhoven, The Netherlands

    Published in:

    Second RILEM International Conference on Concrete and Digital Fabrication ; Chapter: 99 ; 1023-1030

    RILEM Bookseries ; 28

    Publication date:

    2020-07-08

    Size:

    8 pages

    ISBN:

    978-3-030-49916-7 , 978-3-030-49915-0

    ISSN:

    2211-0852 , 2211-0844

    DOI:

    https://doi.org/10.1007/978-3-030-49916-7_99

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    LCA , 3DCP , Additive manufacturing , Computational design Materials Science , Structural Materials , Building Materials , Manufacturing, Machines, Tools, Processes , Engineering

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