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. The position focuses on frequency-domain electromagnetic (FEM) and transient electromagnetic (TEM) methods. The successful candidate will contribute to the development of an inversion framework for the joint
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. The position focuses on frequency-domain electromagnetic (FEM) and transient electromagnetic (TEM) methods. The successful candidate will contribute to the development of an inversion framework for the joint
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pressure range with expected installation in 2025, for in situ and operando studies under gaseous conditions. You will develop the Fluctuation Electron Microscopy (FEM) technique using most advanced STEMs
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orders of magnitude pressure range with expected installation in 2025, for in situ and operando studies under gaseous conditions. You will develop the Fluctuation Electron Microscopy (FEM) technique using
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. Extensive experience in the development and application of finite element method (FEM) or comparable methods for AM applications. Preferred Qualifications: Demonstrated expertise in multi-physics simulations
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influence of microstructure. The modelling will encompass methods for representing microstructures in simulations, crystal plasticity, homogenisation techniques, FEM, and parameter identification based
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with finite element modeling (FEM) and computational simulations. Microfabrication & Electrical Characterization: cleanroom fabrication and electrical testing of nanodevices. What We Offer: A dynamic
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models using experimental data for precise mapping of real processes Conducting detailed analyses of thermomechanical stresses in electrochemical converters using the finite element method (FEM
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, electrical conductivity of composites FEM modeling, optimization, machine learning, and evolutionary algorithms * extensive knowledge of composites and conductive composites * programming skills (MATLAB, Python) and
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or semester interns. Your profile PhD in Materials Science, Mechanical Engineering, Manufacturing Technology or similar fields Experienced in CFD and FEM simulations using tools such as OpenFOAM (preferably