Abstract
The design research presented in this paper grounds itself in a tradition of seeking new architectural form from the affordances and proclivities of new materials. We report on the developmental stages of a construction concept that involves the growing of mycelium-based composites within stay-in-place scaffolds produced using Kagome weaving techniques. We demonstrate how speculative design is used to generate hypotheses - testable design statements - for directing empirical investigation, and how results drive the progression of the design inquiry and its associated digital design tools. Our core contribution is to expose new design pathways that operate reciprocally between material, tectonic and spatial exploration. We argue that such reciprocity is a prerequisite for supporting the invention of new architectural forms, vocabularies and systems.
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References
Appels, F.V.W., et al.: Fabrication factors influencing mechanical, moisture-and water-related properties of mycelium-based composites. Mater. Des. 161, 64–71 (2019)
Jones, M., Mautner, A., Luenco, S., Bismarck, A., John, S.: Engineered mycelium composite construction materials from fungal biorefineries: a critical review. Mater. Des. 187, 108397 (2020)
Nagy, D., Locke, J., Benjamin, D.: Computational brick stacking for constructing free-form structures. In: Thomsen, M., Tamke, M., Gengnagel, C., Faircloth, B., Scheurer, F. (eds.) Modelling Behaviour, pp. 203–212. Springer, Cham (2015). https://doi.org/10.1007/978-3-319-24208-8_17
Heisel, F., et al.: Design of a load-bearing mycelium structure through informed structural engineering. In: World Congress on Sustainable Technologies (WCST-2017), pp. 45–49 (2017)
Dahmen, J.: Mushroom furniture. University of British Columbia (2016). https://doi.org/10.14288/1.0343116
Dessi-Olive, J., et al.: Monolithic mycelium: growing vault structures. In: 8th International Conference on Non-Conventional Materials and Technologies Construction Materials and Technologies for Sustainability, Nairobi, Kenya (2019)
Colmo, C., Ayres, P.: 3D printed bio-hybrid structures-investigating the architectural potentials of mycoremediation. In: Anthropologic, eCAADe Conference, pp. 573–582. CUMINCAD (2020)
Goidea, A., Floudas, D., Andréen, D.: Pulp Faction: 3D printed material assemblies through microbial biotransformation. In: Fabricate 2020, pp. 42–49. UCL Press (2020)
Elsacker, E., Søndergaard, A., Van Wylick, A., Peeters, E., De Laet, L.: Growing living and multifunctional mycelium composites for large-scale formwork applications using robotic abrasive wire-cutting. Constr. Build. Mater. 283, 122732 (2021)
Rigobello, A., Ayres, P.: Compressive behaviour of anisotropic mycelium-based composites. Sci. Rep. 12(1), 1–13 (2022)
Rigobello, A., Colmo, C., Ayres, P.: Effect of composition strategies on mycelium-based composites flexural behaviour. Biomimetics 7(2), 53 (2022)
Rigobello, A., Ayres, P.: Design strategies for mycelium-based composites. In: Satyanarayana, S.K., Deshmukh, T. (eds.) Fungi and Fungal Products in Human Welfare and Biotechnology. Springer (2022, in press)
Faircloth, B., et al.: Multiscale modeling frameworks for architecture: designing the unseen and invisible with phase change materials. Int. J. Archit. Comput. 16(2), 104–122 (2018)
Stokes, D.E.: Pasteur’s Quadrant: Basic Science and Technological Innovation. Brookings Institution Press, Washington, D.C. (2011)
Ayres, P., Martin, A.G., Zwierzycki, M.: Beyond the basket case: a principled approach to the modelling of Kagome weave patterns for the fabrication of interlaced lattice structures using straight strips. In: Advances in Architectural Geometry 2018, pp. 72–93. Chalmers University of Technology (2018)
Ayres, P., You-Wen, J., Young, J., Martin, A.G.: Meshing with Kagome singularities: topology adjustment for representing weaves with double curvature. In: Advances in Architectural Geometry, pp. 188–207. Ponts Chaussées (2021)
Rasooli, A., Itard, L.: In-situ characterization of walls’ thermal resistance: an extension to the ISO 9869 standard method. Energy Build. 179, 374–383 (2018)
Acknowledgments
This work contributes to the Fungal Architectures project. This project is funded by the European Union’s Horizon 2020 research and innovation programme FET OPEN “Challenging current thinking” under grant agreement No. 858132.
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Ayres, P., Rigobello, A., You-Wen, J., Colmo, C., Young, J., Sørensen, KJ. (2023). Investigating a Design and Construction Approach for Fungal Architectures. In: Gengnagel, C., Baverel, O., Betti, G., Popescu, M., Thomsen, M.R., Wurm, J. (eds) Towards Radical Regeneration. DMS 2022. Springer, Cham. https://doi.org/10.1007/978-3-031-13249-0_45
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