Mycomerge: Fabrication of Mycelium-Based Natural Fiber Reinforced Composites on a Rattan Framework

Nguyen, Mai Thi; Solueva, Daniela; Spyridonos, Evgenia; Dahy, Hanaa

doi:10.3390/biomimetics7020042

Cited by 11 publications

(4 citation statements)

References 16 publications

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“…Lignocellulosic agricultural waste, agro-industrial by-products, and forestry residues are the most abundant biomass reserves and they have already been used in experimental and commercial mycelium composite production. [4,20,21,38,40,47,55,58,71,[81][82][83][84][85] Yet, lower densities (and strengths) have been recorded for mycelium composites based on lignocelluloses. [1] This is because their complex and stable structure requires a concentrated amount of enzymes by fungi to effectively decompose them into easily assimilable simple sugars, resulting in lower bioconversion yields.…”

Section: Lignocellulosic Agricultural Wastesmentioning

confidence: 99%

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Mycelium Composites for Sustainable Development in Developing Countries: The Case for Africa

Akromah,

Chandarana,

Eichhorn

2023

Advanced Sustainable Systems

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The socio‐economic struggles in Africa are partly attributed to the low productivity of the agricultural sector. The Sustainable Development Goals Centre for Africa (SDGC/A) and the African Development Bank Group (AfDBG) both agree that the continent needs sustainable interventions to boost agricultural productivity, employment, and income. In this regard, mycelium composite production can present one potential solution. The added value to agricultural waste used to produce mycelium composites can generate additional revenue for farmers, serving as an incentive to increase agricultural productivity. Furthermore, the establishment of mycelium composite start‐ups can increase employment and income, especially for women and the youth. Mycelium composites can also aid in mitigating environmental and health challenges caused by some of the current waste management practices in Africa. This review offers valuable insights into the potential use of mycelium composites as a sustainable alternative for Africa. It explores the potential use of locally accessible resources, the potential applications for the composites in Africa, and the potential challenges that may arise with this technology. It further assesses the potential contribution of this technology to sustainable development in Africa in line with the Sustainable Development Goals (SDGs) set by the United Nations (UN).

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Section: Lignocellulosic Agricultural Wastesmentioning

confidence: 99%

“…Moreover, these species have already been extensively utilized in the production of mycelium composites, indicating a substantial body of research supporting their suitability for this technology. [8,21,38,83,85,116]…”

Section: Basidiomycete Fungi In Africamentioning

confidence: 99%

Mycelium Composites for Sustainable Development in Developing Countries: The Case for Africa

Akromah,

Chandarana,

Eichhorn

2023

Advanced Sustainable Systems

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“…The traces of ratan orientation are well visible on the exterior of the piece. The resulting test-component in form of a funicular stool was able to withstand 20 times it weight without visible deformation [21]. The Students of Kansas State University developed the 2-m tall column from MCB casted inside the exosceleton weaved using basket-making techniques.…”

Section: Monolithic Casting With Visible Reinforcing Lost Formworkmentioning

confidence: 99%

Mycostructures—growth-driven fabrication processes for architectural elements from mycelium composites

Biala

Ostermann

2022

Archit. Struct. Constr.

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The paper discusses how characteristics of the mycelium growth process—namely different growth effectiveness depending on the nutrition content of the substrate, gradual solidification of the inoculated substrate, and bio-welding—can be a driving force for developing sustainable biofabrication processes of mycelium based composites (MBC) for architectural application. To explore this potential one-semester (12 weeks) seminar and one block seminar (2 weeks) with master-level students were held at the University of Stuttgart, and independent work within the Institute IBK2 was performed. The free experimentation with fabrication tactics resulted in the emergence of different investigation paths, tested with small-scale demonstrators, from which the most interesting three this paper presents in detail. The first is the two-phase printing process of mycelium substrate and subsidiary reusable support materials. It applied tests with the small, inorganic, loose substances (plastic pellets) extractable mechanically and meltable substances (wax) extracted by heating. The second path of investigation followed lost formworks created from hemp strings positioned inside the material. Finally, the third path is a particular case of lost formwork approach utilizing different tubular bandages stuffed with MBC and utilizing it later as a thick filament for other different form-giving deposition practices: layering, hanging, braiding, and knotting. All three investigation paths prove feasible, although their upscaling potential correlates strongly with the successful automation of the processes using CNC machines, which could provide the precision and sterility needed for this highly heterogenous and sensitive material. In addition, further developments in the material cultivation protocols are indispensable to provide a higher repetition of the results.

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“…Avila et al [28] and Premier et al [29] put stress on forward-looking solar furniture with light and heat sensors, lighting, which, thanks to its solar cells, is able to generate clean and sustainable energy. In recent years, furniture made from biological raw materials derived from various agricultural products and generated waste has also appeared on the market [30][31][32][33][34].…”

Section: Sustainable Materialsmentioning

confidence: 99%

Material, Functional, and Aesthetic Solutions for Urban Furniture in Public Spaces

Grabiec

Łącka

Wiza³

2022

Sustainability

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Urban furniture is a wide collection of objects of different sizes and geometries, performing different functions in the city. The paper describes the history and contemporary development trends of urban furniture. It analyses the construction materials most often used in their production, as well as functional and aesthetic solutions. A questionnaire survey, exploring the issue of urban furniture from the view point of the student population, was statistically analysed. It showed the preferences and expectations of current and future users of urban furniture, which can be helpful in achieving harmony between the creation of a positive image of the city and the comfort of public spaces for its residents. In the study of the preferences of urban furniture users, contingency tables were used for questions with a possible single answer. The results of questions with possible multiple answers were illustrated using Venn diagrams or equivalent UpSetR charts.

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Mycomerge: Fabrication of Mycelium-Based Natural Fiber Reinforced Composites on a Rattan Framework

Cited by 11 publications

References 16 publications

Mycelium Composites for Sustainable Development in Developing Countries: The Case for Africa

Mycelium Composites for Sustainable Development in Developing Countries: The Case for Africa

Mycostructures—growth-driven fabrication processes for architectural elements from mycelium composites

Material, Functional, and Aesthetic Solutions for Urban Furniture in Public Spaces

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