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Autores principales: Mitropoulou, Ioanna, Vaxman, Amir, Diamanti, Olga, Dillenburger, Benjamin
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2501.06088
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author Mitropoulou, Ioanna
Vaxman, Amir
Diamanti, Olga
Dillenburger, Benjamin
author_facet Mitropoulou, Ioanna
Vaxman, Amir
Diamanti, Olga
Dillenburger, Benjamin
contents We present a method to fabricate double shell structures printed in trans-versal directions using multi-axis fused-deposition-modeling (FDM) robot-ic 3D printing. Shell structures, characterized by lightweight, thin walls, fast buildup, and minimal material usage, find diverse applications in pro-totyping and architecture for uses such as façade panels, molds for concrete casting, or full-scale pavilions. We leverage an underlying representation of transversal strip networks generated using existing methods and propose a methodology for converting them into printable partitions. Each partition is printed separately and assembled into a double-shell structure. We out-line the specifications and workflow that make the printing of each piece and the subsequent assembly process feasible. The versatility and robust-ness of our method are demonstrated with both digital and fabricated re-sults on surfaces of different scales and geometric complexity.
format Preprint
id arxiv_https___arxiv_org_abs_2501_06088
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Non-planar 3D Printing of Double Shells
Mitropoulou, Ioanna
Vaxman, Amir
Diamanti, Olga
Dillenburger, Benjamin
Robotics
Computational Geometry
We present a method to fabricate double shell structures printed in trans-versal directions using multi-axis fused-deposition-modeling (FDM) robot-ic 3D printing. Shell structures, characterized by lightweight, thin walls, fast buildup, and minimal material usage, find diverse applications in pro-totyping and architecture for uses such as façade panels, molds for concrete casting, or full-scale pavilions. We leverage an underlying representation of transversal strip networks generated using existing methods and propose a methodology for converting them into printable partitions. Each partition is printed separately and assembled into a double-shell structure. We out-line the specifications and workflow that make the printing of each piece and the subsequent assembly process feasible. The versatility and robust-ness of our method are demonstrated with both digital and fabricated re-sults on surfaces of different scales and geometric complexity.
title Non-planar 3D Printing of Double Shells
topic Robotics
Computational Geometry
url https://arxiv.org/abs/2501.06088