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is a key-enabling technology for advanced manufacturing. In order to address increasingly complex demands on joining (dissimilar materials combinations, miniaturisation, extreme operation conditions
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, in close collaboration with our inter-disciplinary team and external scientific and industry partners. The candidate will support our master students, publish in scientific journals, and participate in
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the organic additives chemistry and mixture plays in the process variability and sensitivity and investigate the underlying mechanisms towards a lean and sustainable manufacturing of precision ceramic parts
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in materials research is important, experience in nanofabrication, micromechanical testing, and numerical simulations is desirable. Our offer You will be enrolled in the doctoral program in Mechanical
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element modeling, computational fluid dynamics). Knowledge of heat and mass transport processes in heat-sensitive materials and process optimization. Experience in supply chains and hygrothermal
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imperative to develop alternative highly efficient treatments and improve wound management. In the Wound Booster initiative, we will design a precision, self-care integrated system to completely understand
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. This project will center on high-entropy oxides, a promising class of catalysts, to help transform CO2 into valuable hydrocarbons. The work is part of a broader initiative aimed at advancing materials
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materials and devices based on nanoscale surface effects, utilizing a combination of experimental and computational approaches. We are looking for a highly motivated PhD candidate fascinated by quantum