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appropriate for PhD age. Experience of electrical characterisation, and knowledge of at least a few of the following: dual-configuration van der Pauw, finite element simulations of electrical properties
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or magnetically confined fusion plasmas. Expertise in computational techniques including low-rank, spectral, finite volume, finite element (such as discontinuous Galerkin) methods. Knowledge of fluid and kinetic
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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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(modeling/simulation) - Finite element analysis (Abaqus) - Programming (Python, C++) Additional comments N/A Website for additional job details https://emploi.cnrs.fr/Offres/CDD/UMR5801-GUICOU-001
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LevelPhD or equivalent Skills/Qualifications Candidate profile Modelling acoustic propagation (ideally with flow). Numerical methods for acoustics or fluid mechanics (ideally finite differences or finite
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development) will be used to characterize the interaction between two grains surrounded by foam. 2.2. Numerical Modeling: The numerical microstructure at the grain scale will be used as input data for finite
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engineeringYears of Research ExperienceNone Research FieldPhysics » AcousticsYears of Research ExperienceNone Additional Information Eligibility criteria autonomy, strong knowledge of finite elements, Python
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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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. Development of mesh generation and adaptation algorithms to produce optimized spatial discretization for finite element-based anisotropic elastic and viscoelastic wave propagation; 2. Develop interface matching
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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