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to the prospective employee should include: • Strong background in structural engineering. • Background in numerical modelling for structural analysis using the finite element method. • Experience in computer
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of interest include structure-preserving finite element methods, advanced solver strategies, multi-fluid systems, surrogate modeling, machine learning, and uncertainty quantification. The position comes with a
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Arts et Métiers Institute of Technology (ENSAM) | Paris 15, le de France | France | about 2 months ago
discovering research and potentially pursuing a PhD. Expected skills • Solid background in numerical methods (PDEs, finite elements, scientific computing). • Interest in modeling, model order reduction, and
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accordingly. To connect local material properties to macroscale asphalt pavement performance, you will employ multi-scale numerical modelling based on the Finite Element method. This project is a collaboration
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steps of the process, FEMM, a finite element analysis tool will be called from Python to complement the analysis. Behavioural competencies Education You must be a university student, preferably studying
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SolidWorks and/or Inventor software – 4 points; no proven experience – 0 points. d) Proven experience in finite element model development in industrial projects using Abaqus software – 4 points; no proven
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. Develop multi-physics material models, implement them in a finite element code, and conduct experimental characterisation. The balance between modelling and experiments can be tailored to your interests
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mechanical engineering, mechatronics, robotics, computational mechanics, control, or a closely related field. We value experience or clear interest in the following areas: Structural dynamics / finite element
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that the master's degree has been awarded. Programming skills, e.g., Fortran or C++, is a requirement. Competence in the theory of the finite element method is an advantage. Competence in the theory
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design of tools for Cold Compaction (CC) and Friction Stir Extrusion (FSE) using CAD software. 2. Testing and validation of the different tool geometries using Finite Element simulations in ABAQUS. 3