This thesis presents a novel framework for the design of 3D-printed components with optimized lattice infill. The approach is based on beam-based cubic unit cells with octahedral symmetry, organized into three distinct classes that allow smooth transitions between topologies while preserving structural connectivity and printability. A finite element implementation of asymptotic homogenization is employed to characterize the effective linear elastic and thermal properties of the generated lattices, while a novel optimization scheme is introduced to enable reduced-order optimization.
A novel design methodology for heterogeneous beam-based lattices / De Canio, Francesco. - (2026 Jan 15).
A novel design methodology for heterogeneous beam-based lattices
DE CANIO, FRANCESCO
15/01/2026
Abstract
This thesis presents a novel framework for the design of 3D-printed components with optimized lattice infill. The approach is based on beam-based cubic unit cells with octahedral symmetry, organized into three distinct classes that allow smooth transitions between topologies while preserving structural connectivity and printability. A finite element implementation of asymptotic homogenization is employed to characterize the effective linear elastic and thermal properties of the generated lattices, while a novel optimization scheme is introduced to enable reduced-order optimization.| File | Dimensione | Formato | |
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Tesi_dottorato_DeCanio.pdf
accesso aperto
Note: tesi completa
Tipologia:
Tesi di dottorato
Licenza:
Creative commons
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71.04 MB
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Adobe PDF
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71.04 MB | Adobe PDF |
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