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) Corrosion behavior (electrochemistry & high-temperature oxidation) In-situ monitoring of AM processes Computational skills in: Phase-field modeling, Machine Learning, FEM, DEM, COMSOL Alloy design (CALPHAD
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mapping and imaging experiments to probe local heat transport and phonon dynamics; Perform finite element modeling (FEM) (e.g., using COMSOL Multiphysics) to simulate thermal transport processes and support
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experience related to the position Experience leading end-to-end development of microfluidic or micro-manufactured devices: design (CAD/CAM), analysis (FEM), fabrication, and assembly/sealing of small-scale
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and active‑heating rigs; Strong programming skills (Python/Matlab and/or FEM packages); Publication record appropriate to career stage; Excellent teamwork, project‑management and communication skills
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modeling (DEM, FEM, BEM). Your job You will work on the project “FastSlip”. In this position, you will develop and utilise scale-bridging techniques to model and investigate fault slip in induced seismicity
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) Corrosion behavior (electrochemistry & high-temperature oxidation) In-situ monitoring of AM processes Computational skills in: Phase-field modeling, Machine Learning, FEM, DEM, COMSOL Alloy design (CALPHAD
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workshops. Develop scripts and perform simulations using CFD and FEM software. Write technical reports and publish high-quality scientific papers in international journals and conferences. Qualifications
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with FEM or CFD methods and tools such as COMSOL, ANSYS or similar software packages Ideally, experience with thermal and mechanical loads of high-temperature materials Scientific creativity, teamwork
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supervising research students. Programming skills for experimental settings (e.g. data acquisition and analysis, device modelling) Experience carrying out device simulations in FEM or FDTD software e.g. COMSOL
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modeling for neurobiology, including finite element modeling (FEM) or system identification methods in medical applications About the Department The Department of Biomedical Engineering is an academic unit