@INPROCEEDINGS{20.500.11850/594566,
	copyright = {In Copyright - Non-Commercial Use Permitted},
	year = {2022},
	booktitle = {Proceedings of the IASS 2022 Symposium affiliated with APCS 2022 conference},
	volume = {2022},
	type = {Conference Paper},
	journal = {Proceedings of IASS Annual Symposia},
	author = {Tanadini, Davide and Ohlbrock, Patrick Ole and Kladeftira, Marirena and Leschok, Matthias and Skevaki, Eleni and Dillenburger, Benjamin and D'Acunto, Pierluigi},
	size = {12 p.},
	abstract = {Additive manufacturing allows using naturally grown structural elements in combination with 3D printed components, aiming to foster a more sustainable building culture. However, from a structural perspective, the combined use of natural and artificial materials introduces new uncertainties and challenges in relation to the design and analysis of the global load-bearing behavior of structures, as well as their connection systems. In this context, equilibrium-based methods derived from the lower bound theorem of the theory of plasticity are particularly effective since they are not restricted to a specific structural typology, material, or scale. This paper illustrates the application of equilibrium-based methods such as strut-and-tie modeling and graphic statics to the structural design and analysis of a full- scale demonstrator, the Digital Bamboo pavilion. The load-bearing system of the pavilion is a bamboo space frame reinforced by post-tensioned cables. The bamboo elements are connected via bespoke 3D printed nylon and steel connections. Thanks to the combination of natural and artificial materials, the Digital Bamboo exhibits a filigree high-performance geometry that goes beyond the ordinary space frame architecture.},
	issn = {2518-6582},
	keywords = {Space frame; equilibrium-based methods; bamboo; bespoke connections; additive manufacturing},
	language = {en},
	address = {s.l.},
	publisher = {International Association for Shell and Spatial Structures (IASS); Asian-Pacific Conference on Shell and Spatial Structures (APCS)},
	DOI = {10.3929/ethz-b-000594566},
	title = {Exploring the potential of equilibrium-based methods in additive manufacturing: the Digital Bamboo pavilion},
	Note = {Annual Symposium of the International Association for Shell and Spatial Structures (IASS 2022); Conference Location: Beijing, China; Conference Date: September 19-22, 2022}
}