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Compressive resistance of the mycelium composite. Mycelium composites are a type of novel, economical and environmentally sustainable materials. The advantage of this material is that it forms a compact unit without the use of any adhesives. In this study mycelium boards were prepared from middle wood chipped particles for the manufacturing of commercial particle boards by using the growth activity of fungus Trametes versicolor. The compressive resistance of the mycelium composite was low but acceptable and comparable with other materials.
Słowa kluczowe
Rocznik
Tom
Strony
31--36
Opis fizyczny
Bibliogr. 20 poz., rys., tab.
Twórcy
autor
- Faculty of Wood Science and Technology, Technical University in Zvolen
autor
- Faculty of Wood Science and Technology, Technical University in Zvolen
autor
- Faculty of Wood Science and Technology, Technical University in Zvolen
autor
- Annals of Wood Science and Technology, Technical University in Zvolen
Bibliografia
- 1. ASTM C 165-07 2017. Standard Test Method for Measuring Compressive Propertiesof Thermal Insulations. ASTM International, West Conshohocken, PA, 2017,www.astm.org
- 2. ATTIAS N., DANAI O., EZOV N., TARAZI E., GROBMAN Y. J. 2017: Developingnovel applications of mycelium based bio-composite materials for design andarchitecture. Proceedings of Building with Bio-based Materials: Best practice and Performance Specification, 6th – 7th September 2017, Zagreb, Croatia, 76–77.
- 3. BAYER E., McINTYRE G. 2011: Method for producing rapidly renewable chitinousmaterial using fungal fruiting bodies and product made thereby. U.S. Patent No.8,001,719. Washington, DC: U.S. Patent and Trademark Office.
- 4. DODOO A. GUSTAVSSON L, SATHRE R. 2014: Recycling of lumber. In WorrellE., Reuter M. 2014: Handbook of Recycling - State-of-the-art for Practitioners,Analysts, and Scientists, Elsevier, 151-163.
- 5. Ecovative GIY 2018. Grow it yourself mushroom material (Instruction Manual). 12 p.https://giy.ecovativedesign.com/wp-content/uploads/2014/08/Grow-It-Yourself-Instruction-Manual-v1.0.pdf.
- 6. HOLT G.A., McINTYRE G., FLAGG D., BAYER E., WANJURA J.D., PELLETIERM.G. 2012: Fungal mycelium and cotton plant materials in the manufacture ofbiodegradable molded packaging material: evaluation study of select blends of cotton by products. J. Bio. Based Mater. Energy 69 (4), 431–439.
- 7. JIANG L., WALCZYK D., MCINTYRE, G. BUCINELL R. 2016: A new approach tomanufacturing biocomposite sandwich structures: Mycelium-based cores. In ASME 2016 11th International Manufacturing Science and Engineering Conference.
- 8. JONES M., BHAT T., HUYNH T., KANDARE E., YUEN R., WANG C. H., JOHNS. 2018: Waste‐derived low‐cost mycelium composite construction materials withimproved fire safety. Fire and Materials, 42(7), 816-825.
- 9. LASKOWSKA A., MAMIŃSKI M. 2018: Properties of particleboard produced frompost-industrial UF-and PF-bonded plywood. European Journal of Wood and Wood Products, 76(2), 427-435.
- 10. LELIVELT R.J.J., LINDNER G., TEUFFEL P., LAMERS H. 2015: The productionprocess and compressive strength of Mycelium-based materials. In First InternationalConference on Bio-based Building Materials. 22-25 June 2015, Clermont-Ferrand,France. 1-6.
- 11. MERL A.D, HUMAR M., OKSTAD T., PICARDO V., RIBEIRO A., STEIERER F.2007: Amounts of recovered wood in COST E31 countries and Europe. In: Gallis Ch(ed) Management of recovered wood. University Studio Press, Thessaloniki, pp 79–116.
- 12. PELLETIER M.G., HOLT G.A., WANJURA J.D., BAYER E., McINTYRE G. 2013:An evaluation study of mycelium based acoustic absorbers grown on agricultural byproductsubstrates. Ind. Crops Prod., 51: 480–485.
- 13. PELLETIER M.G., HOLT G.A., WANJURA J.D., LARA A.J., TAPIA-CARILLOA., McINTYRE G., BAYER, E. 2017: An evaluation study of pressure-compressedacoustic absorbers grown on agricultural by-products. Industrial crops and products,95, 342-347.
- 14. ROSS P. 2016: Method for producing fungus structures U.S. Patent No. 9,410,116.Washington, DC: U.S. Patent and Trademark Office.
- 15. TRAVAGLINI S., NOBLE J., ROSS P. G., DHARAN, C.K.H. 2013: Mycologymatrix composites. Proc., 28th Annual Technical Conference of the American Societyfor Composites, 517–535.
- 16. TRAVAGLINI S., DHARAN C., ROSS P.G. 2014: Mycology matrix sandwichcomposites flexural characterization. 29th Technical Conference of the AmericanSociety for Composites, 1–20.
- 17. TUDRYN G. J., SMITH, L. C. FREITAG J., BUCINELL R., SCHADLER L. S.2018: Processing and morphology impacts on mechanical properties of fungal basedbiopolymer composites. Journal of Polymers and the Environment, 26(4), 1473-1483.
- 18. YANG Z., ZHANG F., STILL B., WHITE M., AMSTISLAVSKI P. 2017: Physicaland mechanical properties of fungal mycelium-based biofoam. Journal of Materials inCivil Engineering, 29(7), 04017030.
- 19. VNUK R. 2017: The compressibility of insulation for the flat roofs. (Diploma thesis).The Czech Technical University in Prague, Faculty of Civil Engineering. 87 p.
- 20. ZIEGLER A. R., BAJWA S. G., HOLT G. A., MCINTYRE G., BAJWA D. S. 2016:Evaluation of physico-mechanical properties of mycelium reinforced greenbiocomposites made from cellulosic fibers. Applied engineering in agriculture, 32(6),931-938
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8bd14f5b-40cd-47f1-99b0-ad3706eb6afa