Activities per year
Abstract
Mycelium-based composites (MBC) are a promising class of relatively novel materials that leverage mycelium colonisation of substrates. Being predicated on biological growth, rather than extraction based material sourcing from the geosphere, MBC are garnering attention as potential alternatives for certain fossil-based materials. In addition, their protocols of production point towards more sustainable and circular practices. MBC remains an emerging practice in both production and analysis of materials, particularly with regard to standardisation and repeatability of protocols. Here, we show a series of flexural tests following ASTM D1037, reporting flexural modulus and flexural modulus of rupture. To increase the mechanical proprieties, we contribute with an approach that follows the composition strategy of reinforcement by considering fibre topology and implementing structural components to the substrate. We explore four models that consist of a control group, the integration of inner hessian, hessian jacketing and rattan fibres. Apart from the inner hessian group, the introduction of rattan fibres and hessian jacketing led to significant increases in both strength and stiffness (α = 0.05). The mean of the flexural modulus for the most performative rattan series (1.34 GPa) is still close to three times lower than that of Medium-Density Fibreboard, and approximately 16 times lower in modulus of rupture. A future investigation could focus on developing a hybrid strategy of composition and densification so as to improve aggregate interlocking and resulting strength and stiffness.
Original language | English |
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Article number | 53 |
Journal | Biomimetics |
Volume | 7 |
Issue number | 2 |
Number of pages | 9 |
ISSN | 2313-7673 |
DOIs | |
Publication status | Published - 25 Apr 2022 |
Keywords
- Mycelium-Based Composites
- Biomaterials
- Natural Composites
Artistic research
- No
Activities
- 1 Editor of Research journal
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Biomimetics (Journal)
Adamatzky, A. (Editor), Wösten, H. A. B. (Editor) & Ayres, P. (Editor)
1 Oct 2021 → 30 Jun 2022Activity: Peer-review and editorial work › Editor of Research journal › Research
Research output
- 1 Ph.D. thesis
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On Mycoboscus: Design Strategies & Epistemology of a Novel Sustainable Craft
Rigobello, A., 11 Dec 2023, Royal Danish Academy - Architecture, Design, Conservation. 468 p.Publications: Book / Anthology / Thesis / Report › Ph.D. thesis
Open AccessFile
Projects
- 1 Finished
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FUNGAR: Fungal Architectures
Ayres, P. (PI), Rigobello, A. (Project Participant) & Buchwald, E. F. (Project Participant)
01/12/2019 → 31/05/2023
Project: Research