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Field
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registration, segmentation and feature extraction to support microstructure–performance studies. · Work with SOLBAT partners at the University of Oxford to correlate microstructural evolution with
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unique properties, and analyze their microstructural, mechanical, and thermal properties after sintering. Your tasks Exploring commercial SiC ceramic powder and sintering additives Development of SiC
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at an atomic-resolution level, uncovering causal links of their microstructure with optoelectronic properties and stability. These advances will be accomplished through a co-ordinated and well-interlinked
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tailoring their microstructure and to develop a direct link as well as a closed loop between processing and fabrication of materials on one hand, and material characterisation and simulation-theoretical
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controlled by tailoring their microstructure and to develop a direct link as well as a closed loop between processing and fabrication of materials on one hand, and material characterisation and simulation
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microstructural characterisation. You will also work closely with modelling specialists to connect what you observe in the lab to behaviour across multiple length scales, contributing to a powerful design framework
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of resolution Setup, programming, and operation of DIW equipment Determination of optimal debinding and sintering steps Characterization of the sintered materials: density, microstructure, defects, shrinkage
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uniaxial creep tests (tension, compression) and comparing the results Characterization of the microstructure–property relationship using optical microscopy, SEM and EBSD Correlation of microstructure and
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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
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(tensile, hardness, nanoindentation, metallography) and microstructural characterization techniques (SEM, EBSD, OM) Experience with metallographic specimen preparation Knowledge of mechanical properties