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The Effect of Treatment with Fire Retardant on Properties of Birch Veneer and Manufactured Fire-Resistant Plywood

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The production of plywood from impregnated veneers allows a wood-based product protected in the entire cross-section to be obtained. The conducted research was focused on the properties of veneers impregnated with a mixture of potassium carbonate and urea, such as pH, wettability, colour change and surface roughness. In addition, the properties of plywood produced with melamineureaformaldehyde resin, such as the shear strength and formaldehyde emission, were the subject of research as well. It was found that the impregnated veneers were characterized by an increased pH, increased wettability, a completely different colour and unchanged surface roughness. Moreover, the impregnation of the veneers caused a decrease in the bonding quality of the plywood and a reduction in formaldehyde emissions from the finished product. It can be concluded that the melamineurea-formaldehyde adhesive is more suitable for the production of fire-resistant plywood than the urea-formaldehyde adhesive.
Rocznik
Strony
Art. no. 176617
Opis fizyczny
Bibliogr. 41 poz., rys., tab., wykr.
Twórcy
  • Poznań University of Life Sciences, Faculty of Forestry and Wood Technology, Department of Mechanical Wood Technology
  • Poznań University of Life Sciences, Faculty of Forestry and Wood Technology, Department of Mechanical Wood Technology
  • Poznań University of Life Sciences, Faculty of Forestry and Wood Technology, Department of Woodworking and Fundamentals of Machine Design
  • Poznań University of Life Sciences, Faculty of Forestry and Wood Technology, Department of Chemical Wood Technology
  • Poznań University of Life Sciences, Faculty of Forestry and Wood Technology, Department of Mechanical Wood Technology
  • Poznań University of Life Sciences, Faculty of Forestry and Wood Technology, Department of Mechanical Wood Technology
Bibliografia
  • Aydin D., Ismail A., Hasan O. [2014]: Effect of fire retardant chemicals on formaldehyde emission of plywood. Proceedings of the 25th International Scientific Conference New Materials and Technologies in the Function of Wooden Products, 17 October 2014. Zagreb, Croatia: 63–66
  • Aydin I. [2004]: Activation of wood surfaces for glue bonds by mechanical pre-treatment and its effects on some properties of veneer surfaces and plywood panels. Applied surface science 233: 268–274
  • Aydin I., Colakoglu G. [2007]: Variation in surface roughness, wettability and some plywood properties after preservative treatment with boron compounds. Building and Environment 42: 3837–3840
  • Ayrilmis N., Dundar T., Candan Z., Akbulut T. [2009]: Wettability of fire retardant treated laminated veneer lumber (LVL) manufactured from veneers dried at different temperatures. BioResources 4[4]: 1536-1544
  • Barański J., Klement I., Vilkovská T., Konopka A. [2017]: High temperature drying process of beech wood (Fagus sylvatica L.) with different zones of sapwood and red false heartwood. BioResources 12: 1861–1870
  • Bekhta P., Bryn O., Sedliacik J., Novák I. [2016]: Effect of different fire retardants on birch plywood properties. Acta Facultatis Xylologiae Zvolen 58[1]: 59-66
  • Bekhta P., Krystofiak T., Proszyk S., Lis B. [2018]: Evaluation of Dynamic Contact Angle of Loose and Tight Sides of Thermally Compressed Birch Veneer. Drvna Industrija 69[4]: 387-394
  • Bekhta P., Sedliačik J., Bekhta N. [2020]: Effects of selected parameters on the bonding quality and temperature evolution inside plywood during pressing. Polymers 12:1035
  • Bryn O., Bekhta P., Sedliačik J., Forosz V., Galysh V. [2016]: The effect of diffusive impregnation of birch veneers with fire retardant on plywood properties. BioResources 11[4]: 9112–9125
  • Grześkowiak W., Cofta G., Janiak G., Kwaśniewska-Sip P. [2016]: Influence of impregnation time on the degree of wood-based materials fire protection. Annals of Warsaw University of Life Sciences-SGGW, Forestry and Wood Technology 94: 278–282
  • Grześkowiak W.Ł. [2012]: Evaluation of the effectiveness of the fire retardant mixture containing potassium carbonate using a cone calorimeter. Fire and materials 36: 75–83
  • Hautamäki S., Altgen M., Altgen D., Larnøy E., Hän-ninen T., Rautkari L. [2020]: The effect of diammonium phosphate and sodium silicate on the adhesion and fire properties of birch veneer. Holzforschung 74: 372–381
  • Jankowska A., Kozakiewicz P., Zbieć M. [2021]: The Effects of Slicing Parameters on Surface Quality of Eu-ropean Beech Wood. Drvna industrija 72: 57–63
  • Jayamani E., Rahman M.R., Hamdan S., Kyari M.I., Bakri M.K.B., Sanaullah K., Khan A. [2020]: Dielectric Properties of Natural Borneo Woods: Keranji, Kayu Malam, and Kumpang. BioResources 15: 7815–7827
  • Kawalerczyk J., Dziurka D., Mirski R., Grześkowiak W. [2019]: The effect of veneer impregnation with a mixture of potassium carbonate and urea on the properties of manufactured plywood. Drewno 62[203]: 107-116
  • Kawalerczyk J., Walkiewicz J., Dziurka D., Mirski R., Brózdowski J. [2022a]: APTES-Modified Nanocellulose as the Formaldehyde Scavenger for UF Adhesive-Bonded Particleboard and Strawboard. Polymers 14: 5037
  • Kawalerczyk J., Walkiewicz J., Dziurka D., Mirski R. [2022b]: Nanomaterials to Improve Fire Properties in Wood and Wood-Based Composite Panels. In: Tagh-iyari H.R., Morell J.J., Husen A. (ed.), Emerging Nanomaterials: Opportunities and Challenges in Forestry Sectors. Springer, Berlin.
  • Kawalerczyk J., Walkiewicz J., Woźniak M., Dziurka D., Mirski R. [2023]: The effect of urea-formaldehyde adhesive modification with propylamine on the properties of manufactured plywood. The Journal of Adhesion 99: 1427–1440
  • Kol H.S., Ozbay G., Köse L., Kurt S. [2010]: Effects of some impregnation chemicals on combustion characteristics of laminated veneer lumber (LVL) produced with oak and poplar veneers. BioResources 5[1]: 70-80
  • Laskowska A., Kozakiewicz P., Zbieć M., Zatoń P., Oleńska S., Beer P. [2018]: Surface Characteristics of Scots Pine Veneers Produced with a Peeling Process in Industrial Conditions. BioResources 13: 8342–8357
  • Lei H., Frazier C. [2015]: Curing Behavior of Melamine-Urea-Formaldehyde (MUF) Resin Adhesive. International Journal of Adhesion and Adhesives 62: 40-44
  • Lin C-F., Karlsson O., Mantanis G.I., Sandberg D. [2020]: Fire performance and leach resistance of pine wood impregnated with guanyl-urea phosphate/boric acid and a melamine-formaldehyde resin. European Journal of Wood and Wood Products 78: 107–111
  • Lu J., Huang Y., Jiang P., Chen Z., Bourbigot S., Fontaine G., Chang L., Zhang L., Pan F. [2022]: Universal circulating impregnation method for the fabrication of durable flame-retardant plywood with low hygroscopicity and leaching resistance. Polymer Degradation and Stability 195: 109799
  • Mamiński M., Bielik M., Jaskolowski W. [2013]: Effect of sodium chloride and silicon dioxide aqeous impregnation on the selected properties of plywood. Annals of Warsaw University of Life Sciences-SGGW Forestry and Wood Technology 83: 196-200
  • Mazela B., Batista A., Grześkowiak W. [2022]: Expandable graphite as a fire retardant for cellulosic materials – A review. Forests 11: 755
  • Mirski R., Kawalerczyk J., Dziurka D., Siuda J., Wieruszewski M. [2020]: The Application of Oak Bark Powder as a Filler for Melamine-Urea-Formaldehyde Adhesive in Plywood Manufacturing. Forests 11[2]: 1249
  • Nemli G., Ayan E., Ay N., Tiryaki S. [2018]: Utilization potential of waste wood subjected to insect and fungi degradation for particleboard manufacturing. European Journal of Wood and Wood Products 76: 759–766
  • Özçifçi A., Okçu O. [2008]: Impacts of some chemicals on combustion properties of impregnated laminated veneer lumber (LVL). Journal of Materials Processing Technology 199: 1–9
  • Özçifçi A., Toker H., Baysal E. [2007]: Fire properties of laminated veneer lumber treated with some fire retardants. Wood Research 52: 37–46
  • Popescu C-M., Pfriem A. [2020]: Treatments and modification to improve the reaction to fire of wood and wood based products—An overview. Fire and Mate-rials 44: 100–111
  • Renner J.S., Mensah R.A., Jiang L., Xu Q., Das O., Berto F. [2021]: Fire behavior of wood-based composite materials. Polymers 13: 4352
  • Taghiyari HR, Tajvidi M, Taghiyari R, Mantanis G.I., Es-mailpour A., Hosseinpourpia R. [2020]: Nanotechnology for wood quality improvement and protection. In: Husen A., Jawaid M. (ed.), Nanomaterials for agriculture and forestry applications. Elsevier, Amsterdam, Netherlands.
  • Thomas A., Moinuddin K., Zhu H., Joseph P. [2021]: Pas-sive fire protection of wood using some bio-derived fire retardants. Fire Safety Journal 120:103074
  • Xu Q., Chen L., Harries K.A., Zhang F., Liu Q., Feng J. [2015]: Combustion and charring properties of five common constructional wood species from cone calorimeter tests. Construction and Building Materials 96: 416–427
  • Yan Y, Wang J, Shen Z, Bi H., Shentu B. [2023]: Flame Resistance and Bonding Performance of Plywood Fabricated by Guanidine Phosphate-Impregnated Veneers. Forests 14: 741
  • Yang Y., Haurie L., Wang D-Y. [2021]: Bio-based materials for fire-retardant application in construction products: a review. Journal of Thermal Analysis and Calorimetry 147: 6563-6582
  • Zenkteler M. [1996]: Kleje i klejenie drewna, Wydawnictwo Akademii Rolniczej w Poznaniu, Poznań
  • List of standards
  • EN 314-1:2004 Plywood. Bonding quality. Test methods
  • EN 314-2:1993 Plywood. Bonding quality. Requirements
  • EN ISO 4287:1997 Geometrical Product Specifications (GPS) - Surface texture: Profile method – Terms, def-initions and surface texture parameters
  • EN 717-3:1996 Wood-based panels – Determination of formaldehyde release – Part 3: Formaldehyde release by the flask method
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cb40ddea-016c-4cd0-87e0-eb1c286a2951
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