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the simulation results. This work builds on our previous research on crosslinking at the substrate/polymer interface: Suzanne Morsch, Yanwen Liu, Kieran Harris, Flor R. Siperstein, Claudio Di Lullo, Peter Visser
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between gases and polymers. Additionally, electronic structure calculations, though rather accurate, are too resource-intensive for large-scale simulations over extended periods. To address these challenges
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sensor performance and benchmark quality. Training will include developing machine learning algorithms, enhancing both experimental and analytical skills. Collaboration with research groups and industry
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the boundaries of CFRP simulation techniques, fostering innovation and sustainability in industries that rely on the CFRP material. The research will also help shape the future of CFRP simulation progress in
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rehydration (PETR)" mechanism. This bio-inspired approach utilises entangled polymer interfaces to form load-bearing (F=30N), speed-independent (0.1–200mm/s), low-friction (μ<0.01) surfaces that sustain tissue
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the broader Complex Fluid group and focuses on areas of research bringing together complex fluids (e.g., polymer solutions) and microfluidics. For instance, we pioneered the use of polymer solutions to promote
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to their excellent structural performance and relatively low weight. However, their laminated structure results in low fracture toughness and limited impact resistance, influenced by the type of polymer used
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Engineering Simulation and Testing (BEST ) Lab led by Dr Hari Arora. There are currently >20 researchers in the group with >10 PhD level working on advanced experimental and computational mechanics problems. A
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through the University of Birmingham’s online application system. Please include a copy of your CV, a cover letter outlining your research interests and any previous experience, and the names and email