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, which causes reduced performance and accelerated material degradation in seawater. This project will experimentally investigate cavitation erosion in composite materials and develop a structural health
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. Thermoplastic composites, combined with novel material architectures, are central to this transition, enabling recyclable, lightweight structures. Research now targets energy-efficient, automated processes and
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-friction polymer cages made from advanced polymers and composite materials (e.g., PEEK, PA66, PA46). These materials enable quieter operation and higher rotational speeds, but their dominant failure modes
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to composite propellers still faces significant challenges. One of these outstanding challenges is cavitation erosion, which causes reduced performance and accelerated material degradation in seawater
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designs, sustainable skies. Job description The path to sustainable aviation relies on innovative, efficient production technologies. Thermoplastic composites, combined with novel material architectures
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methods (chromatography, spectroscopy, elemental analysis) to characterize feedstocks, intermediates, and recycled products. Exploring the influence of textile composition (cotton, polyester, blends
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products. Exploring the influence of textile composition (cotton, polyester, blends, additives, dyes) on process performance and product quality. Collaborating with project partners to integrate results