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polymers, Injection moulding, extrusion, extrusion-based 3D printing, direct ink writing, finite element method (FEM). Specific Requirements Scientific knowledge in: Processing and manufacturing of polymers
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good research practices Basic proficiency in data analysis or computational tools relevant to the project Preferred Qualifications: Experience with finite element methods, molecular biology techniques
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describe the damage present in critical areas. They rely on multi-scale finite element simulations with multiphysics couplings between electrical, thermal, and mechanical domains. In addition, it is
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, the use of the finite element method (FEM) to predict deformations and residual stresses stands out as a particularly promising approach, as it enables the anticipation of defects and the optimization
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-physics systems, particularly thermal-mechanical analysis in metal additive manufacturing. Familiarity with finite element/finite volume methods, high-performance computing, and simulation data processing
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of Finite Element Method, and FEniCS/Firedrake/Dune. Excellent communication and organisational skills. The ability to work independently and as part of a multidisciplinary and multicultural team. Networking
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element analysis, or related computational methods is considered an advantage, but is not required Clear motivation to conduct structured research and to produce documented and publishable research outcomes
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oxide nitrides, each of which have shown initial promising hydrogen production capabilities. Research will involve the using of finite element modelling approaches to optimise the microstructure of new
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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