Ofertes treballs fi d'estudishttps://eseiaat.upc.edu/ca/curs-actual/treballs-fi-estudis/ofertes-treballs-fi-destudishttps://eseiaat.upc.edu/++resource++plone-logo.svg
2014 - MÀSTER UNIVERSITARI EN ENGINYERIA AERONÀUTICA
2016 - MÀSTER UNIVERSITARI EN ENGINYERIA ESPACIAL I AERONÀUTICA
Identificador de l'oferta:
205-06332
Modalitat:
Universitat
Possibilitat de beca/finançament:
No
Idioma d'elaboració del treball:
Anglès
Descripció:
This thesis explores methods to perform topology optimization efficiently while explicitly incorporating additive manufacturing (AM) constraints such as minimum feature size, overhang angles, and printability requirements. The focus is on developing numerical strategies that reduce computational cost without compromising the quality of the optimized design, enabling the creation of lightweight and manufacturable structures suitable for 3D printing.
Objectius:
1. Formulate topology optimization problems with AM-specific constraints; 2. Implement efficient numerical strategies to accelerate optimization (e.g., domain decomposition, multiresolution schemes, or filtering techniques); 3. Evaluate the influence of AM constraints on structural performance and manufacturability; 4. Compare efficiency and quality of results with standard topology optimization approaches; 5. Validate the framework on representative benchmark problems.
Tasques a realitzar / Característiques:
1. Literature Review: Study topology optimization methods and AM-related constraints; 2. Problem Setup: Define structural optimization problems with load cases and manufacturing restrictions; 3. Algorithm Development: Implement efficient solvers or refinement techniques to reduce computational effort; 4. Constraint Handling: Integrate AM requirements such as overhang control and minimum feature size; 5. Benchmarking: Test the approach on standard structural problems and compare with unconstrained solutions; 6. Performance Analysis: Evaluate computational efficiency, robustness, and manufacturability of the designs; 7. Thesis Writing: Document the methodology, numerical experiments, and conclusions.
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