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microstructures in-situ during the AM process as well as ex-situ during post-AM treatments and enable predictions of the microstructural evolution, and thus changes in properties, while AM components are in use
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industry. Responsibilities and qualifications Your overall focus will be to advance the development of a sustainable photochemical reduction process for PFAS mineralization using a green reducing agent. You
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. Collecting and analyzing data from a full-scale (150 kWh capacity) pilot installation at DTU. Developing a computer model (“digital twin”) that link physical experiments with advanced control and operation
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research with real industrial practice. You will work on asset-heavy cases from sectors such as energy, manufacturing, and process industries, where maintenance is not just about fixing breakdowns but about
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are intricately linked to the electronic configurations of the f -element ions, and any modifications in these configurations result in dramatic changes in their physical and chemical properties. The aim
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for doctoral networks, applicants must NOT yet have a PhD. You must have: A Master’s degree and/or BSc degrees in Chemical Engineering, Physics, Chemistry, Materials Science, or related disciplines. An aptitude
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PhD scholarship in Corrosion Mechanisms of Power Semiconductor Device and Components - DTU Construct
thermal energy systems. The research under the section of Materials and Surface Engineering is multi-disciplinary and covers materials science, chemistry, physics, solid mechanics, and manufacturing