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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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related field (e.g., Engineering Mechanics). Strong background in continuum mechanics and constitutive modeling of solids. Demonstrated experience with finite element methods, including model development
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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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Education & Experience: PhD Must be competent to model rail buckling, rail fracture, and failure of track structure due to moisture sorption using advanced finite element methods. Also, must be competent
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cumulatively meet the requirements described will be excluded. Preferential factors: Have solid knowledge in structural engineering; Have solid knowledge in the finite element method; Have experience
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structural degradation phenomena—including fatigue, corrosion, and biofouling—would also be beneficial. Experience working with Finite Element Method (FEM) tools, such as Abaqus, ANSYS, OrcaFlex, or similar
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suitable for a PhD education. You must meet the requirements for admission to the faculty's Doctoral Programme Excellent oral and written presentation skills in English Solid knowledge in finite element
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design and optimisation, with proven capability using finite-element and multiphysics tools such as ANSYS Maxwell/Workbench, Motor-CAD, JMAG, Altair Flux, and COMSOL. Demonstrated experience spanning
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element method and/or spectral solvers Practical experience in at least one programming language (preferably Python) and experience with the use of Unix/Linux operating systems Structured and analytical
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modelling with finite element methods of solar cell devices. Knowledge of some or all of the materials involved is an advantage. Specific Requirements Familiarity with SILVACO modelling of multijunction solar