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structures, followed by thorough characterization of their chemical, structural, and mechanical properties. You will work on understanding and optimizing foam properties such as porosity, elasticity, and
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for electric machines to address challenges of increasing efficiency, reducing weight, volume, cost, redundancy, and reliability. The candidate will prioritize industry requirements in designing, development and
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Center (CoaST). These facilities are now equipped with modern graphical user interfaces, unified communication protocols, and structured data pipelines that collect and store experimental data in dedicated
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to material, cutting tools and parts production. The PhD project will therefore focus on the development of an integrated system combining direct and indirect tool wear monitoring for reliable residual life
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techniques in enzyme kinetics and structure-function analysis Contribute to pioneering research in the green transition and circular economy Be part of a vibrant international research community with excellent
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for this role due to its advanced development, scalability, proven reliability, high performance, and ability to operate across a wide range of temperatures. Work description The appointed researcher
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skills. For further information about the guidelines for PhD studies at UCPH, please refer to: https://phd.ku.dk/english/. For further information about the structure of the PhD programme, please refer to
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(or equivalent (120 ECTS points)) in civil or mechanical engineering. Background or strong interest in one or more of the following: Hydrodynamics (wave or coastal) Structural mechanics (nonlinear beam theory
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the interfacial phenomena between water contaminants and adsorbent materials. As a member of the “Nano-Micro-Macro. Structure in Materials” research group, led by Prof. Joerg Jinschek, you will push the boundaries
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insight into the structure, reactions and intermediates at an atomic level. Our main research fields are: Electrocatalysis for various reactions: water splitting, CO2 reduction ect. Catalytic surfaces