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Selected features of medium density fiberboards produced with the use of plant binder

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EN
Abstrakty
EN
Selected features of medium density fiberboards produced with the use of plant binder. The aim of the research was to determine the possibility of producing dry-formed fibreboards with the use of various proportions of plant glue as a binding agent. The scope of work included the production of boards in laboratory conditions with 0%, 10%, 12%, 14%, and 20% mass fractions of plant glue and subjecting them to selected physical and mechanical tests. The results show, that the properties of the produced panels are strongly connected to the content of the plant binder (resination), and, by the proper tuning of resination, it is possible to produce dry-formed fibreboards (MDF type) with the use of plant glue that meets the requirements of proper standards.
PL
Wybrane cechy płyt pilśniowych średniej gęstości wytwarzanych z użyciem spoiwa roślinnego. Celem badań było określenie możliwości produkcji płyt pilśniowych suchoformowanych z wykorzystaniem różnego udziału kleju roślinnego, jako środka wiążącego. Zakres prac obejmował wytworzenie płyt w warunkach laboratoryjnych przy: 0%, 10%, 12%, 14% i 20% udziale masowym kleju roślinnego oraz poddanie ich wybranym próbom fizycznym i mechanicznym. Potwierdzono możliwość wytwarzania płyt pilśniowych suchoformowanych (typu MDF) z wykorzystaniem kleju roślinnego.
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Twórcy
  • Faculty of Wood Technology, Warsaw University of Life Sciences – SGGW, Warsaw, Poland
  • Department of Technology and Entrepreneurship in Wood Industry, Institute of Wood Sciences and Furniture, Warsaw University of Life Sciences – SGGW, Warsaw, Poland
Bibliografia
  • 1. AKINYEMI, B. A., OLAMIDE, O., AND OLUWASOGO, D. (2019). “Formaldehyde free particleboards from wood chip wastes using glutaraldehyde modified cassava starch as binder,” Case Studies in Construction Materials, Elsevier Ltd., 11, e00236. DOI: 10.1016/j.cscm.2019.e00236.
  • 2. AMINI, M. H. M., HASHIM, R., HIZIROGLU, S., SULAIMAN, N. S., AND SULAIMAN, O. (2013). “Properties of particleboard made from rubberwood using modified starch as binder,” Composites Part B: Engineering, Elsevier Ltd, 50, 259–264. DOI: 10.1016/j.compositesb.2013.02.020.
  • 3. AMINI, M. H. M., HASHIM, R., SULAIMAN, N. S., HIZIROGLU, S., SULAIMAN, O., MOHAMED, M., MASRI, M. N., BAKAR, M. B. A., AND TECHNOLOGY, C. (2018). “Degradation of Particleboard Made Using Glutardialdehyde Modified Corn Starch As the Binder By Soil and Soil Inhabiting Organisms,” Journal of Fundamental and Applied Sciences, 10(September 2018), 745–757. DOI: 10.4314/jfas.v10i2s.54.
  • 4. ANONYM. (2006). “IARC Monographs on the Evaluation of Carcinogenic Risks to Humans,” in: Formaldehyde, 2-Butoxyethanol and 1-tert-Butoxypropan-2-ol, International Agency for Research on Cancer, Lyon, France, https://publications.iarc.fr/106.
  • 5. ANTOV, P., SAVOV, V., TRICHKOV, N., KRIŠŤÁK, Ľ., RÉH, R., PAPADOPOULOS, A. N., TAGHIYARI, H. R., PIZZI, A., KUNECOVÁ, D., AND PACHIKOVA, M. (2021). “Properties of high-density fiberboard bonded with urea–formaldehyde resin and ammonium lignosulfonate as a bio-based additive,” Polymers, 13(16). DOI: 10.3390/polym13162775.
  • 6. BARTOSZUK, K., AND KOWALUK, G. (2022). “Moisture influence on solid wood bonded with modified starch,” Annals of Warsaw University of Life Sciences - SGGW, Forestry and Wood Technology, 118, 67–73. DOI: 10.5604/01.3001.0016.0501.
  • 7. BAYER, S. (2003). Possibilities and limitations of economically valuating ecological damages, Eberhard Karls Universität Tübingen, Wirtschaftswissenschaftliche Fakultät, Tübingen
  • 8. BÖHM, M., SALEM, M. Z. M., AND SRBA, J. (2012). “Formaldehyde emission monitoring from a variety of solid wood, plywood, blockboard and flooring products manufactured for building and furnishing materials,” Journal of Hazardous Materials, Elsevier B.V., 221–222, 68–79. DOI: 10.1016/j.jhazmat.2012.04.013
  • 9. EN 310. (1993). Wood-Based Panels. Determination of Modulus of Elasticity in Bending and of Bending Strength, European Committee for Standardization, Brussels, Belgium.
  • 10. EN 317. (1993). Particleboards and fiberboards – Determination of swelling in thickness after immersion in water, European Committee for Standardization, Brussels, Belgium.
  • 11. EN 319. (1993). Particleboards and fibreboards - Determination of tensile strength perpendicular to the plane of the board, European Committee for Standardization, Brussels, Belgium.
  • 12. EN 320. (2011). Particleboards and fibreboards - Determination of resistance to axial withdrawal of screws, European Committee for Standardization, Brussels, Belgium.
  • 13. EN 382-2. (1993). Fibreboards - Determination of surface absorption - Part 2: Test method for hardboards, European Committee for Standardization, Brussels, Belgium.
  • 14. EN 622-5. (2010). Fibreboards. Specifications. Requirements for dry process boards (MDF), European Committee for Standardization, Brussels, Belgium.
  • 15. HONG, M. K., LUBIS, M. A. R., AND PARK, B. D. (2017). “Effect of panel density and resin content on properties of medium density fiberboard,” Journal of the Korean Wood Science and Technology, 45(4), 444–455. DOI: 10.5658/WOOD.2017.45.4.444.
  • 16. IANNUZZI, M. (2011). “Environmentally assisted cracking (EAC) in oil and gas production,” Stress corrosion cracking: Theory and practice, 570–607. DOI: 10.1533/9780857093769.4.570.
  • 17. JIANG, W., TOMPPO, L., PAKARINEN, T., SIRVIÖ, J. A., LIIMATAINEN, H., AND HAAPALA, A. (2018). “Effect of cellulose nanofibrils on the bond strength of polyvinyl acetate and starch adhesives for wood,” BioResources, 13(2), 2283–2292. DOI: 10.15376/biores.13.2.2283-2292
  • 18. JIANG, Y., CHEN, Q., TAN, H., GU, J., AND ZHANG, Y. (2019). “A low-cost, formaldehyde-free, and high-performance starch-based wood adhesive,” BioResources, 14(1), 1405–1418. DOI: 10.15376/biores.14.1.1405-1418
  • 19. KOWALUK, G., AND WRONKA, A. (2020). “Bonding of sawmill birch wood with selected biopolymer-based glues,” Annals of Warsaw University of Life Sciences - SGGW, Forestry and Wood Technology, 109, 32–36. DOI: 10.5604/01.3001.0014.3092.
  • 20. MONTEIRO, S., MARTINS, J., MAGALHÃES, F. D., AND CARVALHO, L. (2019). “Low density wood particleboards bonded with starch foam-study of production process conditions,” Materials, 12(12). DOI: 10.3390/ma12121975
  • 21. QIAO, Z., GU, J., LV, S., CAO, J., TAN, H., AND ZHANG, Y. (2016). “Preparation and properties of normal temperature cured starch-based wood adhesive,” BioResources, 11(2), 4839–4849. DOI: 10.15376/biores.11.2.4839-4849
  • 22. RZYSKA-PRUCHNIK, S., AND KOWALUK, G. (2021). “The influence of particleboard resination on their internal bond strength,” Annals of WULS, Forestry and Wood Technology, 115(2012), 55–62. DOI: 10.5604/01.3001.0015.5273
  • 23. SALA, C. M., ROBLES, E., AND KOWALUK, G. (2020). “Influence of adding offcuts and trims with a recycling approach on the properties of high-density fibrous composites,” Polymers, 12(6). DOI: 10.3390/POLYM12061327
  • 24. WATCHARAKITTI, J., WIN, E. E., NIMNUAN, J., AND SMITH, S. M. (2022). “Modified Starch-Based Adhesives: A Review,” Polymers, 14(10). DOI: 10.3390/polym14102023.
  • 25. WRONKA, A., RDEST, A., AND KOWALUK, G. (2020). “Influence of starch content on selected properties of hardboard,” Annals of Warsaw University of Life Sciences - SGGW, Forestry and Wood Technology, 109, 48–52. DOI: 10.5604/01.3001.0014.3160
  • 26. YE, P., AN, J., ZHANG, G., WANG, L., WANG, P., AND XIE, Y. (2018). “Preparation of particleboard using dialdehyde starch and corn stalk,” BioResources, 13(4), 8930–8942. DOI: 10.15376/biores.13.4.8930-8942.
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-123c9409-e5cb-433f-adda-fa9cea8fc8a9
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