Cumincad : CUMINCAD Papers : Paper ecaade2024_296:Surface Articulation as Structural Leverage in Large Scale 3D Printing

id	ecaade2024_296
authors	Fereos, Pavlos; Bauer, Kilian; Efthimiou, Eftychios-Nicolaos
year	2024
title	Surface Articulation as Structural Leverage in Large Scale 3D Printing
source	Kontovourkis, O, Phocas, MC and Wurzer, G (eds.), Data-Driven Intelligence - Proceedings of the 42nd Conference on Education and Research in Computer Aided Architectural Design in Europe (eCAADe 2024), Nicosia, 11-13 September 2024, Volume 2, pp. 607–616
doi	https://doi.org/10.52842/conf.ecaade.2024.2.607
summary	As large-scale robotic 3D printing continues to gain traction in architecture, design and construction, the necessity to develop fabrication-inherent strategies and guidelines to overcome generic limitations of the method becomes increasingly apparent. To contribute to this process, this paper presents three prototypes that explore the concept of surface articulation through geometry manipulation as structural leverage in large scale robotic 3D printing. Each of the three prototypes addresses a specific architectural task with increasing ambition to incrementally challenge the hypothesis. The three research pieces are a three-meter tall, leaning Column, an ornamental Throne and a two and a half meters tall, cantilevering Lamp-post. While the three prototypes represent only a small series of case studies, they are nonetheless diverse and demonstrate situations of different structural stresses, ranging from tension to compression to bending. In the attempt to counteract these structural stresses, all three prototypes pursue the notion of geometry manipulation in the appearance of surface articulation. While the approach to improve surface rigidity through complexity and folding has been known for a long time, it is inherent to the nature of digital design and fabrication, which could revive surface ornamentation in additive manufacturing. The three objects presented, which together form the Trilogy of Additive Hyper-Ornamental Prototypes, aim to contribute to this process by showcasing initial explorations into surface articulation as structural leverage in large scale 3D printing and the aesthetics inherent to this process in order to inspire further research.
keywords	large scale 3D printing, robotic fabrication, surface ornamentation, material properties, geometry manipulation
series	eCAADe
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last changed	2024/11/17 22:05