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-time (75 %) as a Scientific employee – Ph. D. student (m/f/d) The position is part of the externally funded project EXPLORA „Perception of materials, objects and spaces through active EXPLORAtion” and is
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EU MSCA doctoral (PhD) position in Materials Engineering with focus on mechanistic study of high cor
-through system. The objectives of this work are: i) to unveil the driving force of the micro-galvanic corrosion onset; ii) propose several approaches to reduce the micro-galvanic corrosion; iii
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: This PhD thesis project is integrated into the EURECA consortium. The overarching objective of EURECA - The European Epitranscriptomics of Cancer Academy-, is to train young doctoral candidates
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manufactured at Uppsala University) will be the focus of this PhD project. The objectives of this work are to optimize an experimental setup for simultaneous tension/compression testing and localized corrosion
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EU MSCA doctoral (PhD) position in Materials Engineering with focus on mechanistic study of biodegra
. Understanding cooperative effects of mechanically assisted corrosion of the Mg and Zn alloys (additively manufactured at Uppsala University) will be the focus of this PhD project. The objectives of this work
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degradation rates. The best performing alloys will be tested in vitro at Hydrumedical using in house developed flow-through system. The objectives of this work are: i) to unveil the driving force of the micro
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. Treiber, the existing “Intelligent Agent Model” (IAM) for directional disordered traffic flow will be generalized to meet the above objectives (working name IAM2d). The main task is to simulate and
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at Hydrumedical using in house developed flow-through system. The objectives of this work are: i) to unveil the driving force of the micro-galvanic corrosion onset; ii) propose several approaches to reduce the
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project. The objectives of this work are to optimize an experimental setup for simultaneous tension/compression testing and localized corrosion measurements, including monitoring of local pH and dissolved
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their role and behaviour in (deep-)earth processes. Experiments using diamond anvil cells to probe the physical properties of minerals at high pressures with the objective of understanding the structure and