Document detail
ID

doi:10.1186/s40694-023-00169-8...

Author
Schmidt, Bertram Freidank-Pohl, Carsten Zillessen, Justus Stelzer, Lisa Guitar, Tamara Núñez Lühr, Carsten Müller, Henri Zhang, Fangxing Hammel, Jörg U. Briesen, Heiko Jung, Sascha Gusovius, Hans-Jörg Meyer, Vera
Langue
en
Editor

BioMed Central

Category

Mycology

Year

2023

listing date

12/6/2023

Keywords
... fungal-based composite material circular economy bioeconomy hemp composite material mycelium-based material compressive strength flexural strength tensile strength flammability insulation insulation strength fossil particleboards replace water composite composites fomentarius
Metrics

Abstract

Background To achieve climate neutrality, fundamentally new concepts of circularity need to be implemented by the building sector as it contributes to 40% of anthropogenic CO_2 emission.

Fungal biotechnology can make a significant contribution here and help eliminate fossil dependency for building material production.

Recently, we have shown that the medicinal polypore Fomes fomentarius feeds well on renewable lignocellulosic biomass and produces composite materials that could potentially replace fossil fuel-based expanded polystyrene as insulation material.

Results In this study, we explored the mechanical, physical, and thermal properties of F. fomentarius -based composite materials in more detail and determined key performance parameters that are important to evaluate the usability of F. fomentarius -based composite materials in the construction sector.

These parameters were determined according to European standards and included compressive strength, modulus of elasticity, thermal conductivity, water vapour permeability, and flammability of uncompressed composites as well as flexural strength, transverse tensile strength, and water absorption capacity of heat-pressed composites, among others.

We could show that uncompressed composites obtained from F. fomentarius and hemp shives display a thermal conductivity of 0.044 W (m K)^−1 which is in the range of natural organic fibres.

A water vapour permeability of 1.72 and classification into flammability class B1 clearly surpasses fossil-based insulation materials including expanded polystyrene and polyurethane.

We could furthermore show that heat-pressing can be used to reliably generate stiff and firm particleboards that have the potential to replace current wood-based particleboards that contain synthetic additives.

X-ray microcomputed tomography finally visualized for the first time the growth of hyphae of F. fomentarius on and into the hemp shive substrates and generated high-resolution images of the microstructure of F. fomentarius -based composites.

Conclusion This study demonstrates that fungal-based composites produced with F. fomentarius partially meet or even exceed key performance parameters of currently used fossil fuel-based insulation materials and can also be used to replace particleboards.

Schmidt, Bertram,Freidank-Pohl, Carsten,Zillessen, Justus,Stelzer, Lisa,Guitar, Tamara Núñez,Lühr, Carsten,Müller, Henri,Zhang, Fangxing,Hammel, Jörg U.,Briesen, Heiko,Jung, Sascha,Gusovius, Hans-Jörg,Meyer, Vera, 2023, Mechanical, physical and thermal properties of composite materials produced with the basidiomycete Fomes fomentarius, BioMed Central

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