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, as well as numerical methods for partial differential equations, especially finite element methods, both theory and implementation. A successful candidate will work in the topics of interests, which
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to electrochemical engineering, ideally a mix of computational and experimental methods. Emphasis will be on selecting candidates with prior experience with computational methods. Prior experience with Finite Element
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Postdoctoral Researcher - Microstructural Modeling and Characterization of High-temperature Ceramics
various ceramic materials. Demonstrated experience in implementing nonlinear constitutive models in commercial finite element (FE) codes is desirable. You will be expected to collaborate with research staff
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of the research subject This postdoctoral position is part of the research project ASTRAL, managed by the LAUM and funded by the French Government and the Safran Group. The overall aim of the project is to better
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. Duties You will be responsible for developing a damage coupled diffusion finite element model that captures the progressive destruction of cell walls during chemical delignification as
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-equilibrium and finite size effects in magnetic materials, metal hydrides and soft matter. Samples are synthesised and studied with e.g. optical methods and transport measurements in-house. These
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background in finite element modeling (preferably using software such as Abaqus or FEniCS) Experience in fracture mechanics (ex Phase-Field approach) Previous experience with sensitivity analysis and reduced
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structural materials (both metals and ceramics), computational solid mechanics, and thermohydraulics. The successful candidate will develop automated frameworks for finite element analysis of high temperature
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: Research excellence. Ideal candidates will be published research in at least one of the following areas: adaptive finite element methods, discontinuous Galerkin methods, multigrid methods, domain
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-equilibrium and finite size effects in magnetic materials, metal hydrides and soft matter. Samples are synthesised and studied with e.g. optical methods and transport measurements in-house. These