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plasticity modelling at Manchester. The models will be informed by advanced characterization of the microstructures of relevant alloys using electron microscopy. Validation will be performed through trials
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SFI FAST: PhD position in Microstructure/texture evolution during extrusion of scrap-based Aluminium
15th March 2026 Languages English English English The Department of Materials Science and Engineering has a vacancy for a SFI FAST: PhD position in Microstructure/texture evolution during extrusion
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out within the DFG Priority Programme “DaMic - Data-driven Alloy and Microstructure Design of Sustainable Structural Metals” (SPP 2489), in close collaboration with a research partner responsible for
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Microstructure Design of Sustainable Structural Metals” (SPP 2489), in close collaboration with a research partner responsible for the manufacturing and characterization of material samples. As such, the position
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the target material compound (e.g. oxide, carbide or metal form) and engineer a microstructure which contains an interconnected pore network. Additionally this microstructure must be stable under proton beam
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out within the DFG Priority Programme “DaMic - Data-driven Alloy and Microstructure Design of Sustainable Structural Metals” (SPP 2489), in close collaboration with a research partner responsible for
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microstructure at high temperature. After the temperature, pressure and mass loss simulating, the quantified fluid influence of thermal action phenomenon on cement based material microstructure will be generated
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performance compared with existing alloys. The properties of this alloy depend on careful control of the microstructure, in particular the second phase particles and recrystallization. The project aims
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degree programme No Description/content The International Max Planck Research School links the Max Planck Institute of Microstructure Physics with the Martin Luther University Halle-Wittenberg and the
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the final weld. Microstructural simulation of grain sizes and morphology after solidification will be developed together with simulation of metallurgical phase transformations at microscale. Combining