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of Electromechanical, Systems and Metal Engineering Contract Limited duration Degree Master in electromechanical, electrical or control engineering Occupancy rate 100% Vacancy type Research staff Job description Ghent
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- Department of Pharmaceutical Analysis Contract Limited duration Degree Master’s degree in Medical sciences, Health Sciences, Pharmaceutical sciences, Biochemistry, Biomedical sciences, or equivalent. Occupancy
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) • Basic knowledge of finite element simulations (for example star CCM) are an added value, but not necessary, the colleagues of the ProPoLiS research group will help you out with pleasure • You are
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focus on the formulation, modeling, design, and analysis of future 6G communication networks that are capable of supporting new services for digital ecosystems. Use cases of interest include Security and
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teaching. Your Responsibilities: -You will work on the DFG-funded research project "Transitions between Innovation Projects: Key Elements and Team Processes," which is conducted in close cooperation with
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addition to our expertise in metagenomic analysis and clinical experience, the lab also boasts state-of-the-art facilities dedicated to the cultivation and analysis of colon bacteria. This infrastructure has become
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heavy liquid metal environments. A dedicated ultrasonic cavitation facility will be used in the project to verify the computational models experimentally, by creating cavitation under controlled
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of monitoring ultra-high performance concrete (UHPC) elements, specifically focusing on service loading, degradation, and self-healing. Despite its exceptional properties, UHPC faces challenges such as shrinkage
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partnership with the Odysseus Space company as part of the Simulator development for the optical slant path program. This PhD project aims to develop an analysis tool for the optical ground-to-satellite links
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factors that accelerate material deterioration (e.g., hydrogen embrittlement, corrosion). The primary tasks include developing advanced multiphysics frameworks (finite element/phase-field methods