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Doctoral Scholar will lead the microstructure analysis of refractory bcc/B2 alloys, including electron microscopy investigations of microstructures before and after mechanical testing as a function of
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alloys (HEAs) : formulation via Thermocalc and elaboration by SPS. SPS (Spark Plasma Sintering) sintering, due to its rapidity, allows the microstructure of the initial powders to be preserved. In
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Position Description: Conduct research and development as a Postdoctoral Scholar in the Department of Integrated Systems Engineering, with a strong emphasis on microstructure analysis and Multiphysics
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the supervision of Dr. Merry Mani. The successful candidate will work on the development, validation, and translation of cutting-edge MRI techniques for imaging slow-flowing neurofluids and brain microstructure in
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Science. Explore new possibilities in the study of 2D and 3D magnetic microstructures using a mix of static and dynamic magnetometric methods, as well as advanced static and dynamic magneto-optical domain
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at the Mechanics of Composites for Energy and Mobility Lab. (MCEM, https://composites.kaust.edu.sa ). Field of study A Postdoctoral opening is available in the area of Insitu Multiphysics
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than the time the employment decision is made Strong written and verbal communication skills in English Experience in metal additive manufacturing (PBF-LB), microstructure characterization with focus
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to the viscoelastic behavior of polymeric foams under large deformations dynamic loadings. The objective is to simulate, using the finite element method, the response of these porous microstructures under complex
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the time the employment decision is made Strong written and verbal communication skills in English Experience in metal additive manufacturing (PBF-LB), microstructure characterization with focus on Ni-based
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will be used: NMR, methods for the measurement of fresh mixes’ rheology, characterization techniques for hardened properties (microstructure and mechanical performance) and further techniques useful