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Technische Universiteit Eindhoven - Eindhoven University of Technology, Faculteit Scheikundige Technologie - Department of Chemical Engineering and Chemistry, Polymeer Technologie

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Technische Universiteit Eindhoven - Eindhoven University of Technology, Faculteit Scheikundige Technologie - Department of Chemical Engineering and Chemistry, Polymeer Technologie

3 Projects, page 1 of 1

  • 26-01-1076 The tandem catalyst structure during solid-state modification of poly(butyl terephthalate)

    assignment_turned_inProject2016 - 2016Partners:Technische Universiteit Eindhoven - Eindhoven University of Technology, Technische Universiteit Eindhoven - Eindhoven University of Technology, Faculteit Scheikundige Technologie - Department of Chemical Engineering and Chemistry, Polymeer Technologie
    Funder: Netherlands Organisation for Scientific Research (NWO) Project Code: 195.068.930
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  • Dynamic Polymer Materials for Additive Manufacturing

    assignment_turned_inProject2017 - 2023Partners:Maastricht University, Maastricht University, Maastricht University, Faculty of Science and Engineering, Aachen-Maastricht Institute for Biobased Materials (AMIBM), Technische Universiteit Eindhoven - Eindhoven University of Technology, Technische Universiteit Eindhoven - Eindhoven University of Technology, Faculteit Scheikundige Technologie - Department of Chemical Engineering and Chemistry, Polymeer Technologie +12 partners
    Funder: Netherlands Organisation for Scientific Research (NWO) Project Code: 731.016.202

    3D printen maakt het mogelijk om complexe gepersonaliseerde producten zoals prothesen en implantaten te maken rechtstreeks vanuit een 3D scan. Om dit soort toepassingen mogelijk te maken is het belangrijk dat beschikbare materialen de juiste mechanische en biochemische eigenschappen hebben. Dit project richt zich op de ontwikkeling van nieuwe polymere materialen en hydrogelen op basis van dynamische chemische bindingen die ervoor zorgen dat de materialen reageren op verschillende omstandigheden tijdens de verwerking, waardoor optimale eigenschappen van het 3D geprinte product kunnen worden verkregen. Daarnaast kunnen ook eindproducten worden verkregen met schakelbare eigenschappen. Het project is een samenwerking tussen de Technische Universiteit Eindhoven, de Universiteit Maastricht, DSM, Xilloc en Brightlands Materials Center (BMC), een publiek-privaat onderzoekscentrum opgericht door TNO en de provincie Limburg, waarin topwetenschappers en specialisten uit de industrie samenwerken aan duurzame technologische innovaties op het gebied van polymere materialen.

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  • Towards sustainable rheology modifiers: the weakest link becomes the greatest benefit

    assignment_turned_inProjectFrom 2025Partners:Technische Universiteit Eindhoven - Eindhoven University of Technology, Technische Universiteit Eindhoven - Eindhoven University of Technology, Faculteit Scheikundige Technologie - Department of Chemical Engineering and Chemistry, Polymeer Technologie, Technische Universiteit Eindhoven - Eindhoven University of Technology, Faculteit Scheikundige Technologie - Department of Chemical Engineering and Chemistry, Macromoleculaire en Organische Chemie, SupraPolix BV
    Funder: Netherlands Organisation for Scientific Research (NWO) Project Code: NWA.1418.24.002

    This project tackles polymer pollution from personal care products by developing biodegradable acrylate-based rheology modifiers. By applying the emerging concept of well controlled weak bonds in polymers and highly scalable emulsion polymerization, we aim to create materials that maintain product quality while naturally degrading, significantly reducing environmental impact. Through a multidisciplinary approach involving polymer design, reaction engineering, and performance analysis with industry partners, we will advance scalable, sustainable solutions. This research is set to transform the industry, diminish its environmental footprint, and establish new standards for sustainable materials, crucial for protecting aquatic ecosystems and promoting global environmental sustainability.

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