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to the viscoelastic behavior of polymeric foams under large deformations dynamic loadings. The objective is to simulate, using the finite element method, the response of these porous microstructures under complex
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of surfactant and lipid systems. The research focus includes problems such as cavitation, foam stability, and surfactant-mediated interfacial processes. The work will involve MD simulations, numerical analysis
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polymers, foams and composites. The role is highly hands‑on and creative: you will manufacture new polymer formulations, refine processing routes, and carry out mechanical, fracture, thermal and
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length, mean free path, etc.). The third area extends the concept of “soft matter” to biological systems. The themes therefore range from complex systems to living tissues, from liquid crystals to foams
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matter" to biological systems. Topics thus range from complex systems to living tissues, from liquid crystals to foams, including polymers and granular systems. These physical studies lie at the interface
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linear stability analysis of 3D flow in rectangular channels Knowledge of ANSYS FLUENT and/or OPEN Foam CFD codes, Python, Paraview, … Extensive experience in programming A knowledge of complex fluid