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Field
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in numerical analysis of finite element methods and code development MQ: Requires singular knowledge of a specialized advanced professional discipline or the highest level of general business knowledge
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, currents). Finite Element and Structural Modeling: Develop and implement finite element models to evaluate structural integrity under load conditions. Perform stress, strain, and fatigue analysis for modular
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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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AQWA or equivalent) and finite element analysis software (e.g., Abaqus, ANSYS). Experience with stability. Experience in designing connectors or mechanical interfaces is a plus. Familiarity with 3D
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mechanics, applied mathematics, biomedical engineering, computer science or a closely related discipline Strong background in finite-element methods, continuum mechanics and numerical analysis Excellent
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in hydrodynamic modeling tools (e.g., WAMIT, ANSYS AQWA, OrcaFlex) and finite element analysis software (e.g., Abaqus, ANSYS). Experience with stability and mooring system design. Strong analytical
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to: i) lead the design and creation of an experimental setup to examine fluid-structure interactions between 3D-printed models of deep sea sponges and ii) lead the formulation and analysis of finite
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(photolithography, metal evaporation, etching) Experience with packaging schemes such as flip-chip bonding, anisotropic conductive film bonding and wire bonding Finite element Method (FEM) simulations (MEMS, Electro
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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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, real-time data integration, condition monitoring, and predictive diagnostics. Proficiency in dynamic and vibration analysis using commercial finite element and multiphysics platforms such as ANSYS and