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on developing a novel phase-field approach for modeling the solid-state sintering of magnesium alloy powders, implementing it using the finite element method, and validating it through both literature data and in
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digitally in the future – particularly through finite element analyses (FE simulations). The aim of the junior professorship is to sustainably strengthen the research profile of the Medical Faculty Mannheim
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under thermomechanical fatigue (TMF) using the finite element method (FEM). One part of the project involves combining experimental investigations and FE simulations of damage behaviour at the macroscopic
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Finite-Elemente-Analysen (FE-Simulationen) – zu evaluieren. Ziel der Juniorprofessur ist es, das Forschungsprofil der Medizinischen Fakultät Mannheim im Bereich der translationalen muskuloskelettalen
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(including, but not limited to, phylogenetic analysis, morphometrics, or finite elements modelling) are expected. Extensive participation and / or experience in leading fieldwork is expected. The successful
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of the (computational) mechanics of solids and the finite element method and/or spectral solvers Practical experience in at least one programming language (preferably Python) and experience with the use of Unix/Linux
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to efficiently create new, sustainable and recycling-adapted structural metals. Alloys with a reduced number of elements, so-called lean alloys, and material systems with a high tolerance to impurities from
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comparable subject Advanced programming competence in Python is required and basic competence in Fortran is advantageous Basic Experience in FEM (Finite Element Method) simulation tools e.g., ABAQUS or ANSYS
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, knowledge about finite-element analysis is an absolute must . Familiarity with iterative solvers , preconditioners , multigrid methods , and mixed-precision approaches is optional but extremely useful. We