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Field
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-initio codes to accelerate the discovery/design of ultra-high-temperature high-entropy ceramics and other disordered systems Advance and implement high throughput models for the discovery/design of ultra
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ceramic materials by electrospinning for application in ceramic electrochemical reactors; use of different characterization techniques, including impedance spectroscopy, thermogravimetry, dilatometry, X-ray
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of ceramic materials. You will design, coordinate, instrument, and carry out novel experiments using precision impact platforms both in-house and at partner facilities. You will have the opportunity to field
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techniques (Particle Tracking Velocimetry, PTV); planning, design and manufacturing of devices involving ceramic, metallic, polymeric and composite materials, with particular emphasis on additive manufacturing
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understanding in fundamental metallic, ceramic, and hybrid materials science as well as some familiarity with a variety of manufacturing processes. Experience with advanced/additive manufacturing. Experience