Dr. Julian Kupski
Dr. Julian Kupski
Activities at the FHNW
Research Associate at the FHNW Institute of Polymer Engineering
Teaching
- Assisting Lecturer, Student Supervisor
- Fiber-plastic composites 1
- Composite 1 - Manufacturing Technologies
Research
- Carbon fibre composites and structural mechanics
- Recycling of carbon fibre composites
- Secondary bonding and repair of composites
- Design, repair and re-use of alpine skies
Profile
Projects
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LeiWaCo - Development of a lightweight tank for cryogenic hydrogen
Hydrogen plays a central role as an energy storage and carrier in the ongoing energy transition. The aim of the project is to develop a cost-effective, high-strength, lightweight hydrogen tank made of fiber composites that has been specially developed for transporting liquid hydrogen.
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SuMa - Sustainable materials for 3D printed composite parts
High-performance composites exhibit excellent mechanical and chemical Howev-er, the comparably high costs and the negative climate balance, especially for car-bon fiber composite parts, are critical and will be even more important in future applications. The project SuMa focuses on product development of sustainable composite materials for 3D printing.
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FIMATEST verbessert die Bestimmung der Faser-Matrix Auszugskräfte
Das Institut für Kunststofftechnik FHNW nutzt neu das Prüfsystem FIMATEST. Damit können die Forschenden die Faser-Matrix-Haftung in Faserverbund-Werkstoffen zuverlässiger und reproduzierbarer analysieren.
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Herstellung von Prepreg auf Labormassstab
Neue Materialkombinationen ermöglichen Prepregs mit präzise einstellbaren Eigenschaften. Zum Einsatz kommen diese etwa in der Luftfahrt oder der Automobilindustrie.