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Field
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simulation of the induction welding process Process simulations can provide a cost-effective alternative to determine processing windows as well as to optimize the tooling geometry. These process simulations
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involve developing in Elmer/Ice a realistic moving calving-front module, beyond tests already conducted on idealized geometries (e.g., CalvingMIP), for large-scale applications. This PhD will therefore
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to focus on the relationship between geometry and quantum theory. A key objective will be the conceptual and mathematical understanding of the original Penrose spin network, with a view toward foundational
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their PhD thesis at the intersection of theoretical quantum foundations and space-time physics. The thesis is anticipated to focus on the relationship between geometry and quantum theory. A key objective will
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maintaining stiffness in selected directions, enabling both flexibility and strength. Their geometry-driven behavior allows for compact, monolithic designs with fewer moving parts and higher reliability. In
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for next-generation gas turbines. These geometries pose manufacturing challenges, particularly regarding heat transfer, microstructure evolution, and defect prevention. Building on recent doctoral research
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Vacancies PhD position on Stochastic geometric numerical methods Key takeaways Are you passionate about developing cutting-edge numerical algorithms at the intersection of geometry, stochastic
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, which rely on rigid links and localized interaction points, soft robots are composed of deformable materials that can conform to complex geometries and operate safely around humans. They offer unique
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trunk around an object. Unlike traditional robots, which rely on rigid links and localized interaction points, soft robots are composed of deformable materials that can conform to complex geometries and
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intuitive links between search parameters and the resulting geometry or performance outcomes. The result will be an LLM-driven framework giving designers clearer cause-effect control over generative shape