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via electron backscatter diffraction (EBSD). We are seeking a motivated researcher with a passion for metallurgy and materials engineering, eager to tackle industrially-relevant problems. Ideally, you
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(EBSD, EDX, SAXS, TEM) and ex situ/in situ nanoindentation-based techniques (micro-tensile/compression). The insights gained from this investigation will be crucial for optimizing existing Mg-RE alloys
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Powder Bed Fusion (LPBF) parameters. Perform detailed microstructural characterization of IN625 specimens using modern techniques (SEM, EBSD, TEM). Conduct mechanical tests under controlled hydrogen
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advanced microstructural characterization (EBSD, EDX, SAXS, TEM) and ex situ/in situ nanoindentation-based techniques (micro-tensile/compression). The insights gained from this investigation will be crucial
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) Electron backscatter diffraction (EBSD) This project is in collaboration with Cummins, providing you with supervision and industrial context so that the scientific outputs can be directly implemented. You
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also be correlated with the crystallography of the microstructure via electron backscatter diffraction (EBSD). We are seeking a motivated researcher with a passion for metallurgy and materials
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APT, TEM, FIM, EBIC, EBSD, XPS Kelvin probe microscopy, machine learning augmented analysis techniques) Experimental and computational analysis of transport and the reaction of surfaces and particles
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diffraction (EBSD), transmission electron microscope (TEM) and in-situ micromechanics. This project will involve manufacturing trials, workpiece surface quality analysis (e.g. metallurgy, integrity, residual