Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
3d Printed Bio-hybrid Structures:Investigating the architectural potentials of mycoremediation
In this paper, we present a speculative design concept for a mycelium-based living bio-hybrid architectural system. The system combines inoculated lignocellulosic substrates with soil-based 3d printed structures that function as growth scaffolds, material boundaries and spatial organisers. The primary objective of the system is to exploit mycelium as a living remediator of contaminated sites, in the form of architectural proposition. The feasibility of this concept is investigated in two ways: 1) material composition development and process control parameters for soil-based 3d printing 2) the synthesis of printed prototypes to determine geometric and environmental parameters for promoting colonisation of mycelium and supporting its role as both structural binder and `Mycorestoration' agent This work is contextualised with reference to the state-of-the-art in order to identify the research gap and articulate the contribution of a mycelium-based remediating architecture. The merits and limits of the experimental results are reflected upon and trajectories of further investigation outlined.
3d Printed Bio-hybrid Structures:Investigating the architectural potentials of mycoremediation
In this paper, we present a speculative design concept for a mycelium-based living bio-hybrid architectural system. The system combines inoculated lignocellulosic substrates with soil-based 3d printed structures that function as growth scaffolds, material boundaries and spatial organisers. The primary objective of the system is to exploit mycelium as a living remediator of contaminated sites, in the form of architectural proposition. The feasibility of this concept is investigated in two ways: 1) material composition development and process control parameters for soil-based 3d printing 2) the synthesis of printed prototypes to determine geometric and environmental parameters for promoting colonisation of mycelium and supporting its role as both structural binder and `Mycorestoration' agent This work is contextualised with reference to the state-of-the-art in order to identify the research gap and articulate the contribution of a mycelium-based remediating architecture. The merits and limits of the experimental results are reflected upon and trajectories of further investigation outlined.
3d Printed Bio-hybrid Structures:Investigating the architectural potentials of mycoremediation
Colmo, Claudia (Autor:in) / Ayres, Phil (Autor:in) / Werner, Liss C. / Koering, Dietmar
01.09.2020
Colmo, C & Ayres, P 2020, 3d Printed Bio-hybrid Structures : Investigating the architectural potentials of mycoremediation. in L C Werner & D Koering (eds), Anthropologic – Architecture and Fabrication in the cognitive age : Proceedings of the 38th International Online Conference on Education and Research in Computer Aided Architectural Design in Europe, Berlin, Germany, 16th-17th September 2020. vol. 1, eCAADe, pp. 573-582, Anthropologic - Architecture and Fabrication in the cognitive age, Berlin , Germany, 16/09/2020. < https://www.researchgate.net/publication/344297531 >
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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