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, accurate, and physics-informed machine learning models for predicting blood flow in patient-specific vascular geometries. Current simulation-based approaches require complex 3D meshes and are often too slow
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? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description “Development of an AI-driven generative 3D modeling framework". The main
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applied in particular to the modeling of 3D-printed concrete at the Navier laboratory, to better predict complex phenomena such as material curing and crack formation. Where to apply E-mail jeremy.bleyer
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, striving to provide each employee with the opportunity to develop personally and professionally. The field of solid mechanics relates to methods and principles aimed at understanding and modelling
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applied in particular to the modeling of 3D-printed concrete at the Navier laboratory, to better predict complex phenomena such as material curing and crack formation. Where to apply E-mail jeremy.bleyer
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George Emil Palade University of Medicine, Pharmacy, Science, and Technology of Târgu Mureș | Romania | about 1 month ago
on the development and validation of biomaterials and smart medical devices using animal models and advanced 3D technologies Topics: Advanced biomaterials for tissue repair and regeneration Preclinical animal models
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prior research experience in one or more of the following areas: metabolism, single-cell transcriptome, 3D tissue or animal models, biomaterials, immunology, and stem cell biology. • Demonstrated
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manufacturing technologies and eager to develop and build experimental setups and combine this with physics-based modelling? Join us as a PhD candidate and contribute to making volumetric 3D printing predictable
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NOx emissions will also be explored. This research is expected to be published in peer-reviewed journals. Keywords: Porous burner, 3D CFD, hydrogen and ammonia combustion modelling, heat transfer
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applied in particular to the modeling of 3D-printed concrete at the Navier laboratory, to better predict complex phenomena such as material curing and crack formation. Where to apply E-mail jeremy.bleyer