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12/19/2022 15:05

New 3D printing process enables sustainable fiber composite components modeled on nature's example

Sabine Keller Presse- und Öffentlichkeitsarbeit
Deutsche Institute für Textil- und Faserforschung Denkendorf

    Nature often works with fiber composites. Nature's construction principle requires little material and energy, thus ensuring the survival of animal and plant species. These bionics principles can be used to design and manufacture bio-based sustainable fiber composites, which are currently in high demand. The bio-based products have properties comparable to those of commonly used fiberglass composites. Together with the industrial sponsor Arburg GmbH + Co KG, DITF is developing an energy- and material-saving 3D printing process for these lightweight bio-based fiber composites.

    In fiber composites, which occur naturally, reinforcing fibers such as collagen or cellulose fibrils are embedded in a matrix of lignin, hemicellulose or collagen. The fiber strands align with the stress patterns. Tissues are formed mostly via solution-based physio-chemical processes that take place at ambient temperature. Similar to nature, new 3D printing processes with continuous fiber reinforcement also allow the deposition of fiber strands in the right place (topology optimization) and in the appropriate direction in accordance to the load. However, natural fibers such as cellulose fibers are sensitive to higher temperatures. Therefore, they cannot be processed in the commonly employed thermoplastic 3D printing process.
    The result of the research work is 3D-printed fiber composite components consisting of cellulose continuous fibers embedded in a cellulose-based matrix. Newly developed 3D-printing process enables to manufacture the composites at ambient temperature. This means that - as in nature - the material and component can be produced simultaneously in a single operation at ambient temperature.

    The cellulose fiber strand is first stabilized with a binder for processing in the printer. The specially designed print head transforms the binder into a matrix with which the cellulose continuous fibers are encased. Since the cellulose fibers and the matrix have similar chemical structures, the composite component is particularly stable. The mechanical properties, such as breaking strength, are exceptionally good. The solution-based and energy-efficient manufacturing method developed by the research team can also be used in other composite materials manufacturing processes. It is particularly suitable for processing temperature-sensitive materials that are in high demand, such as natural or cellulose fibers.

    The " CellLoes-3D-Druck" research project is funded by the German Federal Ministry of Education and Research as part of the "Biologisierung der Technik" ideas competition.


    Contact for scientific information:

    Dr.-Ing. Sathis Kumar Selvarayan
    Head of Competence Center Polymers & Fiber Composites
    T +49(0)711 9340-551
    E sathiskumar.selvarayan@ditf.de


    Images

    Cellulose fibers pultruded with cellulose based binder
    Cellulose fibers pultruded with cellulose based binder

    DITF

    Newly developed print head for 3D-printing of continuous cellulose fiber reinforced components.
    Newly developed print head for 3D-printing of continuous cellulose fiber reinforced components.

    DITF


    Criteria of this press release:
    Business and commerce, Journalists, Scientists and scholars, Students, all interested persons
    Construction / architecture, Environment / ecology, Materials sciences, Mechanical engineering
    transregional, national
    Research projects
    English


     

    Cellulose fibers pultruded with cellulose based binder


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    Newly developed print head for 3D-printing of continuous cellulose fiber reinforced components.


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