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- MOHAMMED VI POLYTECHNIC UNIVERSITY
- Technical University of Denmark
- University of Bristol
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- Aalborg Universitet
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- Aridditive
- Aston University
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Field
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, sintering of SiC-based ceramics, microstructural and mechanical characterization, programming of machines, modeling and simulation with Ansys, Abaqus, Comsol or similar software. The experimental nature
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morphing-wing UAV prototypes. Methodology: Design and Simulation: ABAQUS, SolidWorks, ANSYS, or COMSOL for topology optimization and aerodynamic modeling. Fabrication: Composite layup, 3D printing (FDM/SLA
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Multiphysics, FLAC / FLAC3D, Abaqus, ANSYS, MATLAB, or comparable tools, including experience implementing user subroutines or custom extensions for advanced material modeling or customized workflows. • Ability
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mechanics, FEA, CFD, or equivalent field. Proficiency in one or multiple finite element analysis software (e.g., ABAQUS, LS-Dyna, ANSYS), and in computational fluid dynamic software (e.g., Fluent, CFX
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and tools such as ANSYS for electric motor design. You will do research on loss minimization of electric machine. You will do research on winding structure to reduce harmonics due to current in
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linear stability analysis of 3D flow in rectangular channels Knowledge of ANSYS FLUENT and/or OPEN Foam CFD codes, Python, Paraview, … Extensive experience in programming A knowledge of complex fluid
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computational modeling (e.g., Abaqus, ANSYS, FEBio, COMSOL, or similar). * Programming and data analysis skills (MATLAB, Python, etc.). * Strong communication skills and ability to work in a team-oriented
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tissue mechanics. • Experience with benchtop mechanical testing (e.g., pressure-flow loops, valve testers). • Proficiency in computational modeling (e.g., Abaqus, ANSYS, FEBio
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) thermal-fluid transport phenomena. Knowledge of MATLAB or equivalent toolkit for modelling and data analysis. Knowledge of ANSYS suite and/or COMSOL or equivalent toolkit for modeling of thermo-fluidic
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to confined systems, using Ansys Fluent, as well as in heat transfer; application of fluid mechanics to experimental systems, including validation methodologies based on image analysis and particle tracking