Research Keyword: Digital fabrication

A review on architecture with fungal biomaterials: the desired and the feasible

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This review examines how mushroom mycelium can be used as a sustainable building material to reduce the construction industry’s carbon footprint. Six notable architectural projects from 2014-2021 demonstrate different approaches to using mycelium-based blocks and panels for constructing pavilions and temporary structures. The research shows that while mycelium composites offer environmental benefits and exciting design possibilities, they typically need reinforcement with traditional materials and careful production control to be effective in larger structures.

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Mycelium-Based Composites for Interior Architecture: Digital Fabrication of Acoustic Ceiling Components

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Researchers developed acoustic ceiling tiles made from mycelium, the root-like part of mushrooms, grown in 3D-printed molds. These sustainable tiles reduce noise in interior spaces while using agricultural waste and requiring minimal energy to produce. The study shows that mycelium-based materials can effectively absorb sound similar to conventional acoustic panels while being completely biodegradable and environmentally friendly.

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Challenges and Opportunities in Scaling up Architectural Applications of Mycelium-Based Materials with Digital Fabrication

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Mycelium, the root structure of fungi, can be grown with agricultural waste to create building materials that are environmentally friendly and biodegradable. While these materials show promise for insulation and non-structural uses, scaling them up for large buildings faces challenges including lower strength compared to traditional materials and lack of standardized production methods. The paper reviews various fabrication techniques and existing projects to suggest how digital design and advanced manufacturing could help overcome these barriers.

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