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computational model to capture the complex transport of gases, liquids, and charges in these porous structures, including the complex interfaces between them. Insights from the model will directly guide the
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, economical and regulatory factors. EmPowerED – Enabling Positive Energy Districts through citizen-centered socio-technical models for upscaling of the heat transition – seeks to tackle this challenge by
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on accurate constitutive models that describe the behavior of the molten material during forming. With the increasing demand for more complex components, a step change in model accuracy and associated material
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handling, enabling first-time-right manufacturing. The predictive quality of these tools relies on accurate constitutive models that describe the behavior of the molten material during forming. With
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design and material handling, enabling first-time-right manufacturing. The predictive quality of these tools relies on accurate constitutive models that describe the behavior of the molten material during
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The Department of Earth Sciences is looking for a highly motivated PhD candidate with an MSc background in Earth Sciences, Inorganic Chemistry, Material Sciences or other appropriate fields. You
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elements with controllable stiffness. The project will involve analytical and computational modelling, as well as designing and conducting lab experiments. Key questions include: How to create materials
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-like dynamics in synthetic systems remains a major challenge across physics, chemistry, biophysics, and materials science. In this PhD project, you will: Develop an experimental platform to study 3D self
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Energy Districts through citizen-centered socio-technical models for upscaling of the heat transition – seeks to tackle this challenge by involving key stakeholders (citizen groups, municipalities, housing
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. These passports are envisioned to revolutionize the way products are tracked and evaluated, providing detailed information about their materials, manufacturing processes, and lifecycle. With DPPs, parties