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are linked to research on composite hydrogen tanks, composite propellers for drones and finite element modelling of textile manufacturing. All research will be conducted with leading companies in
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simulation techniques based on finite element and multibody dynamics formulations. Your tasks involve developing new elements tailored to the multi-physical effects seen in high-performance mechatronics
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. Preferably, you have experience in one or more of the following fields: scientific instrumentation, microfabrication, 3D-printing, finite element analysis, atomic force microscopy (AFM), microfluidics, optical
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reflectance infrared Fourier transform spectroscopy (DRIFTS) to unravel charge transfer mechanisms, active sites and intermediate molecules in the reaction pathway. Additionally, finite element theoretical
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pathway. Additionally, finite element theoretical modelling and density functional theory calculations will be used to further increase our understanding of the photo-reduction mechanism. Correlating
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fields. Solid background in geotechnical earthquake engineering, structural dynamics, and finite element modelling Experience in multi-hazard risk assessment is desirable Experience in programming (MATLAB
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engineering, structural dynamics, basic isolation, finite element modelling. Proficiency and/or interest in programming languages (e.g. MATLAB, Python, R) and software platforms such as OpenSees, ABAQUS, LS
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models combined with the finite element method. Constitutive relations are required to describe material behavior. Advanced stainless steel typically possess complex microstructures across various length
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Engineering, or related fields. Solid background in geotechnical earthquake engineering, structural dynamics, and finite element modelling Experience in multi-hazard risk assessment is desirable. Experience in
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models combined with the finite element method. Constitutive relations are required to describe material behavior. Advanced stainless steel typically possess complex microstructures across various length