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-based models that optimise and control pharmaceutical manufacturing processes effectively. Your main responsibility is to develop and enhance discrete element models (DEM), integrating physics-based
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manufacturing processes effectively. Your main responsibility is to develop and enhance discrete element models (DEM), integrating physics-based mechanistic models to simulate complex fluid and particulate
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manufacturing processes effectively. Your main responsibility is to develop and enhance discrete element models (DEM), integrating physics-based mechanistic models to simulate complex fluid and particulate
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-based models that optimise and control pharmaceutical manufacturing processes effectively. Your main responsibility is to develop and enhance discrete element models (DEM), integrating physics-based
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relationships of novel in-house manufactured metallic powders for additive manufacturing through a range of approaches involving finite element modelling for particle impact and multiple layer growth
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challenges and enhance the performance of recycled aluminium alloys. Responsibilities include developing methods to control solidification, refine microstructure, and mitigate impurity effects, ensuring high
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, trace element and isotope micro-mapping and spot/traverse analyses (fs-LIBS, Vitesse-TOF-ICP-MS, and Neoma-LA-MS/MS-MC-ICP-MS) to quantify spatial and temporal variations of fluid properties with respect
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data is essential. Experience in geometric morphometrics and/or finite element analysis is desirable. The UCL Ways of Working supports colleagues to be successful and happy at UCL through sharing
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in the development, validation, and optimization of 3D-printed Ship Hull and Connector System. This includes conducting finite element modeling, ship resistance and stability assessments, as
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with morphological image data is essential. Experience in geometric morphometrics and/or finite element analysis is desirable. Customer advert reference: B02-10342