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Warianty tytułu
Języki publikacji
Abstrakty
Selected properties of particleboard made of raspberry Rubus idaeus L. lignocellulosic particles. The aim of the research was to confirm the possibility of using lignocellulosic particles of raspberry Rubus idaeus L. stalks as an alternative raw material in particleboard technology. Within the scope of work, it was to produce particleboards from raspberry lignocellulosic particles in laboratory conditions, and to investigate selected mechanical and physical properties of the produced boards. In addition to the aforementioned tests, the characterization of the lignocellulosic raw material used in the tests (density, bark share, fractional composition) was carried out. The tests have shown that it is possible to produce the furniture particleboards with use the lignocellulosic particles of raspberry Rubus idaeus L. To meet the requirements of the European standards for furniture panels, such particleboards must contain less than 50% of raspberry particles with density 650 kg/m3 (due to the bending strength criterion).
Wybrane właściwości płyt wiórowych z cząstek lignocelulozowych maliny właściwej Rubus idaeus L. Celem badań było potwierdzenie możliwości wykorzystania cząstek lignocelulozowych łodyg malin Rubus idaeus L. jako surowca alternatywnego w technologii płyt wiórowych. W ramach prac w warunkach laboratoryjnych wytworzono płyty wiórowe z cząstek lignocelulozowych łodyg malin oraz zbadano wybrane właściwości mechaniczne i fizyczne wytworzonych płyt. Oprócz wspomnianych testów przeprowadzono charakterystykę surowca lignocelulozowego stosowanego w badaniach (gęstość, udział kory, skład frakcyjny). Badania wykazały, że możliwe jest wytwarzanie płyt wiórowych dla meblarstwa z wykorzystaniem zdrewniałych cząstek lignocelulozowych maliny właściwej Rubus idaeus L. Aby spełnić wymagania odpowiednych norm europejskich dla płyt meblowych, wspomniane płyty wiórowe o gęstości 650 kg/m3 muszą zawierać mniej niż 50% cząstek malin (ze względu na kryterium wytrzymałości na zginanie).
Słowa kluczowe
Rocznik
Tom
Strony
113--124
Opis fizyczny
Bibliogr. 30 poz., rys.
Twórcy
autor
- Department of Technology and Entrepreneurship in Wood Industry, Faculty of Wood Technology, Warsaw University of Life Sciences – SGGW
autor
- Department of Technology and Entrepreneurship in Wood Industry, Faculty of Wood Technology, Warsaw University of Life Sciences – SGGW
Bibliografia
- 1. AYRILMIS, N., KWON, J.H., HAN, T. H., 2012: Effect of resin type and contenton properties of composite particleboard made of a mixture of wood and rice husk.International Journal of Adhesion & Adhesives 38: 79-83.
- 2. DONNELLY D., VIDAVER E. W., KWAI Y. L., 1985: The anatomy of tissuecultured red raspberry prior to and after transfer to soil. Plant Cell, Tissue and OrganCulture. 4. 43-50. 10.1007/BF00041654: 43-50.
- 3. EN 310: 1993 Wood – based panels: Determination of modulus of elasticityin bending and of bending strength.
- 4. EN 312: 2010 Particleboards. Specifications.
- 5. EN 317: 1993 Particleboards and fibreboards – Determination of swelling in thicknessafter immersion in water.
- 6. EN 319: 1993 Particleboards and fibreboards – Determination of tensile strengthperpendicular to the plane of the board.
- 7. EN 320: 2011 Particleboards and fibreboards. Determination of resistance to axialwithdrawal of screws.
- 8. GARCÍA-ORTUÑO, T., ANDRÉU-RODRÍGUEZ, J., FERRÁNDEZ-GARCÍA,M.T., FERRÁNDEZ-VILLENA, M., FERRÁNDEZ-GARCÍA, E., 2011: Evaluationof the physical and mechanical properties of particleboard made from Giant reed(Arundo donax L.). BioResurces 6(1): 477-486.
- 9. GHALEHNO, M.D., MADHOUSHI, M., TABARSA, T., NAZERIAN, M., 2010: Themanufacture of particleboards using mixture of reed (surface layer) and commercialspecies (middle layer). Eur. J. Wood Prod., Volume 69, Issue 3: 341-344.
- 10. GULER, C., BEKTAS, I., KALAYCIOGLU, H., 2006: The experimentalparticleboard manufacture from sunflower stalks (Helianthus annuus L.) andCalabrian pine (Pinus brutia Ten.). Forest Prod. J. 56(4): 56-60.
- 11. GULER, C., OZEN, R., 2004: Some properties of particleboards made from cottonstalks (Gossypium hirsitum L.). Holz Roh Werkst 62: 40-43.
- 12. GUNTEKIN, E., UNER, B., SAHIN, H.T., KARAKUS, B., 2008: Pepper stalks(Capsicum annuum) as raw material for particleboard manufacturing. J. Applied Sci.8(12): 2333-2336.
- 13. GÜRÜLER, H., BALLI, S., YENIOCAK, M., GÖKTAŞ, O., 2015: Estimation theproperties of particleboards manufactured from vine prunings stalks using artificialneural networks. Mugla journal of science and technology, Vol. 1, No. 1: 24-33.
- 14. ILIEV, B., MIHAILOVA, J., DIMESKI, J., 2005: Analysis of significant properties ofparticle boards produced of various materials. Proceedings of 7-th internationalconference on wood technology, construction industry and wood protection. Zagreb:9-13.
- 15. KORD, B., ROOHANI, M., KORD, B., 2015: Characterization and utilization of reedstem as a lignocelulosic resource for particleboard production. Maderas. Ciencia ytecnología 17(3): 517-524.
- 16. KALAYCIOGLU H., NEMLI G., 2006: Producing composite particleboard fromkenaf (Hibiscus cannabinus L.) stalks. Industrial Crops and Products 24: 177–180.
- 17. KRZYSIK F., 1975: Nauka o drewnie. Państwowe Wydawnictwo Naukowe,Warszawa.
- 18. KWON, J.H., AYRILMIS, N., HAN, T.H., 2013: Enhancement of flexural propertiesand dimensional stability of rice husk particleboard using wood strands in face layers.Composites: Part B 44: 728-732.
- 19. LATIBARI AJ, ROOHNIA M., 2010: Potential of utilization of the residues frompoplar plantation for particleboard production in Iran. J Forest Res;21(4): 503–508.
- 20. MIHAILOVA, J., ILIEV, B., TODOROV, T., GRIGOROV, R., 2008: Mechanicalproperties of threelayered boards with different kind of lignocellulosic agriculturalresidues in intermediate layer. Proceedings of scientific-technical conference„Innovation in woodworking industry and engineering design”, Jundola: 93-98.
- 21. MIHAILOVA, J., TODOROV, T., GRIGOROV, R., 2006: Utilization of cotton stemsas raw material for intermediate layer of particleboards. Proceedings of the Conferenceco-organizated by COST Action E44-E49 „Wood resources and panel properties”,Valencia: 37-44.
- 22. MIHAJLOVA J., ILIEV B., JAKIMOVSKA POPOVSKA V., 2015: Impact ofpressing temperature on physical and mechanical properties of panels made fromparticles of raspberry stems (Rubus idaeus L.) and grape pruning residues (Vitisvinifera L.). WOOD SCIENCE, DESIGN AND TECHNOLOGY. Vol. 4. 1-8.
- 23. MIHAJLOVA, J., TODOROV, T., GRIGOROV, R., ILIEV, B., PESEVSKI, M.,2007b: Quality indicator of grapevine rods as raw material for production ofparticleboards. Proceedings of international symposium „Sustainable forestryproblemsand challenges, perspectives and challenges in wood technology”, Ohrid:449-455.
- 24. NEMLI G., KIRCI H., SERDAR B., AY N., 2003: Suitability of kiwi (Actinidiasinensis Planch.) prunings for particleboard manufacturing. Industrial Crops andProducts 17: 39-46.
- 25. OH Y. S., YOO J. Y., 2011: Properties of particleboard made from chili pepper stalks.Journal of Tropical Forest Science 23(4): 473–477.
- 26. TODOROV, T., MIHAILOVA, J., GRIGOROV, R., 2007: Utilization of raspberrystalks as a raw material for three-layered particleboards. Proceedings of internationalsymposium „Sustainable forestry-problems and challenges, perspectives andchallenges in wood technology”, Ohrid: 518-521.
- 27. www.itd.poznan.pl/pl/vademecum/sosna (access: June 2019).
- 28. YANG, H.S., KIM, D.J., KIM, H.J., 2003: Rice straw–wood particle composite forsound absorbing wooden construction materials. Bioresource Technology 86 (2003):117-121.
- 29. YENIOCAK, M., GÖKTAŞ, O., ZIYA ERDIL, Y., ÖZEN, E., 2014: Investigating theuse of vine prungs stalks (Vitis vinifera L. cv. Sultani) as raw material forparticleboard manufacturing. Wood Research, 59 (1): 167-176.
- 30. YOSSIFOV, N., DIMESKI, J., MIHAILOVA, J., ILIEV, B., 2001: Grapevine rodspotentialsubstitute for wood raw material in production of boards. Proceedings ofthird balkan scientific conference „Study, conservation and utilisation of forestresources”. Volume IV, Sofia: 139-147.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e338ebdd-5ce0-416b-82e7-6c8ac58d7874