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further strengthen and develop the in-house chemistries and methods to produce lighter ceramic-metallic (cermet) powders for thermal spray and additive manufacturing (AM). Currently cermet powders used in
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thermal desorption spectroscopy techniques. The impact of microstructure, hydrogen environments and stress state will be evaluated. We are looking for you who want to collaborate with industrial partners
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processes of extruded profiles for improved accuracy and mechanical properties investigate the impact of thermal-mechanical processing in aluminum extrusion on the subsequent forming processes and product
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interrogation. Additionally, proficiency in applying data driven techniques to ascertain unknown battery parameters (such as state of health, aging, and internal thermal properties) is paramount. You will report
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synthesis, characterization of structure including in situ X-ray diffraction under electric fields, thermal stability, electrical properties, as well as making of proof-of-concept recyclable device
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. Modelling of the thermal and mechanical performance of different design concepts will be required. Modelling will be largely based on Finite Element Analysis FEA and multiphysics simulations. Some
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composites. Utilize these models to analyse and predict the materials' responses to thermal cycles and their PTC (Positive Temperature Coefficient) effects. Advanced Material Characterization: Utilize advanced