Research Keyword: Fire safety

Thermal Degradation and Fire Properties of Fungal Mycelium and Mycelium-Biomass Composite Materials

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This research explores how mushroom mycelium (fungal threads) can be grown with wheat grains to create fire-resistant composite materials. The study found that these mycelium-based composites are significantly safer than plastic polymers, catching fire less easily and releasing less heat when burned. The mycelium acts like a natural fire shield by forming a protective char layer. These findings suggest mycelium composites could be a sustainable and environmentally friendly alternative to synthetic plastics for packaging and insulation applications.

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Evaluation of Selected Fire Properties of Recycled Particleboards

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This research examines how different types of wood used to make particleboards affect their ability to resist fire. Scientists tested boards made from fresh wood, decayed wood, and recycled wood materials by exposing them to intense heat. They found that boards made from fresh, minimally processed wood catch fire more slowly and burn more slowly than boards made from recycled materials, though recycled boards are more sustainable.

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Assessing the Conformity of Mycelium Biocomposites for Ecological Insulation Solutions

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Researchers developed insulation materials made from mushroom mycelium combined with agricultural and industrial waste products. These eco-friendly composites perform comparably to conventional synthetic insulation in terms of thermal properties and actually outperform them in fire safety. The materials are fully biodegradable and require fewer fossil fuels to produce, making them an attractive sustainable alternative for building construction.

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The Fungus Among Us: Innovations and Applications of Mycelium-Based Composites

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Mycelium-based composites are eco-friendly building materials made by growing mushroom fungus on agricultural waste like sawdust and straw. These materials are lightweight, provide excellent insulation and soundproofing, and are much more sustainable than synthetic alternatives. However, they absorb water easily and aren’t strong enough for load-bearing structures, making them best suited for insulation and non-structural panels.

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