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      Logo of the University of Applied Sciences and Arts Northwestern Switzerland
      • Degree Programmes
      • Continuing Education
      • Research and Services
      • International
      • About FHNW
      DeEn
      Locations and ContactFHNW LibraryMedia Relations
      Sc...
      FHNW School of Engin...
      In...
      Institute of Po...
      Polymer Processing and...

      Polymer Processing and Sustainability

      We conceive product and procedure innovations and develop them until they are ready for the market, focussing in particular on high-performance polymers and composites.

      The interplay of material development, process engineering, tool construction and the precise control of critical processing parameters forms the basis of every procedural innovation. We achieve this goal due to the synergy between the numerical and experimental methods we carry out at our extensive pilot plant where we fuse nanotechnology together with conventional polymer engineering and composite technology. Whether you would like to convert natural fibres into high-performance composites, take pultrusion, extrusion or sheathing processes to extremes, produce high-performance composites on an injection moulding machine, manufacture innovative compounds, integrate functional structures (see the surface structuring group at the Institute of Polymer Nanotechnology) or help discontinuous fibre architectures achieve an industrial breakthrough, we have just the right expert for you.

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      Selected projects

      • Sustainable recycling of glassfiber reinforced plastic

        Plastic waste represents valuable resources. By recycling them and returning them to the materials cycle, we make our contribution to a more sustainable e...

      • Functional prosthetic legs made of glass fiber reinforced plastic recyclate

        Worldwide, 35 to 40 million people depend on prostheses and orthopedic services. Project Circleg has therefore the goal to develop a prosthetic leg system...

      • Electromagnetic shielding with conductive plastic housings

        To shield interfering signals from electronics, plastics must meet high EMC requirements. They are then used as substitute materials for die-cast metal ho...

      • Durable toe boards made of recycled plastics

        Toe boards made of recycled plastic can replace wooden boards for scaffolding construction.

      • Novel method for composite production with injection compression moulding

        A novel composite production method, thermoplastic compression resin transfer moulding (TP-CRTM) coupled with injection compression moulding.

      • Natural fibre composites for lightweight construction applications

        Natural fibre composites are one of the core competences of the Institute of Polymer Technology at the University of Applied Sciences FHNW. Together with ...

      • Engineering of functionalized Polysiloxenes for crosslinked Polyethylene (PE-X)

        Compared to pure polyethylene, PEX is more resistant for small wall thickness to electrical treeing and can withstand high thermal shocks, which makes thi...

      • Digitization of the temperature control unit

        Innovative, model-based thermal industrial systems: Tool Temp AG and three institutes of engineering at the FHNW realized a novel control technology conce...

      • Bipolar plates made from conductive polymer compounds

        A new approach to produce innovative polymer composite bi-polar plates for polymer electrolyte membrane fuel cells

      • Reusability of blister packaging from the medical technology industry

        To save raw materials and protect our environment, it is necessary to return plastic waste to the economic cycle by recycling.

      • Quality enhancement through digitalisation

        Using digital technologies, Biotronik significantly increases the quality of its products.

      • Foamed sandwich panels made of recycled mixed plastic

        Together with UpBoards GmbH, recycled foamed sandwich panels made of mixed plastic were developed, including an efficient manufacturing process.

      • Improvement of additive manufactured parts by nanofibers

        Huntsman’s Miralon material increases mechanical performance and conductivity of thermoplastics for 3D printing and injection moulding.

      About FHNW

      Institute of Polymer Engineering
      Christian Rytka

      Prof. Dr. Christian Rytka

      Group Leader Polymer Processing and Sustainability

      Telephone

      +41 56 202 73 81 (undefined)

      E-mail

      christian.rytka@fhnw.ch

      Address

      Fachhochschule Nordwestschweiz FHNW Hochschule für Technik und Umwelt Klosterzelgstrasse 2 5210 Windisch

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