| id |
acadia21_410 |
| authors |
Meibodi, Mania Aghaei; Craney, Ryan; McGee, Wes |
| year |
2021 |
| title |
Robotic Pellet Extrusion: 3D Printing and Integral Computational Design |
| doi |
https://doi.org/10.52842/conf.acadia.2021.410
|
| source |
ACADIA 2021: Realignments: Toward Critical Computation [Proceedings of the 41st Annual Conference of the Association of Computer Aided Design in Architecture (ACADIA) ISBN 979-8-986-08056-7]. Online and Global. 3-6 November 2021. edited by B. Bogosian, K. Dörfler, B. Farahi, J. Garcia del Castillo y López, J. Grant, V. Noel, S. Parascho, and J. Scott. 410-419. |
| summary |
3D printing offers significant geometric freedom and allows the fabrication of integral parts. This research showcases how robotic fused deposition modeling (FDM) enables the prefabrication of large-scale, lightweight, and ready-to-cast freeform formwork to minimize material waste, labor, and errors in the construction process while increasing the speed of production and economic viability of casting non-standard concrete elements. This is achieved through the development of a digital design-to-production workflow for concrete formwork. All functions that are needed in the final product, an integrally insulated steel-reinforced concrete wall, and the process for a successful cast, are fully integrated into the formwork system. A parametric model for integrated structural ribbing is developed and verified using finite element analysis. A case study is presented which showcases the fully integrated system in the production of a 2.4 m tall x 2.0 m curved concrete wall. This research demonstrates the potential for large-scale additive manufacturing to enable the efficient production of non-standard concrete formwork. |
| series |
ACADIA |
| type |
paper |
| email |
|
| full text |
 file.pdf (4,638,122 bytes) |
| references |
Content-type: text/plain
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Robert H. Lab (2007)
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| last changed |
2023/10/22 12:06 |
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