https://orcid.org/0000-0001-8096-4376
References
- Pizzi A, Stephanou A, Antunes I, et al. Alkaline PF resins linear extension by urea condensation with hydroxybenzylalcohol groups. J Appl Polym Sci. 1993;50(12):2201–2207. doi: 10.1002/app.1993.070501221.
- He G, Riedl B. Phenol-urea-formaldehyde cocondensed resol resins: their synthesis, curing kinetics, and network properties. J Polym Sci B Polym Phys. 2003;41(16):1929–1938. doi: 10.1002/polb.10558.
- Solomon S, Rudin A. Analysis of the formation and curing reactions of resole phenolics. J Appl Polym Sci. 1990;41(12):205–232. doi: 10.1002/app.1990.070410118.
- Tomita B, Hse C. 1998. Phenol—urea—formaldehyde (PUF) co-condensed wood adhesives, 18.
- Rabiej RJ, Behm HD. The effect of clamping pressure and orthotropic wood structure on strength of glued bonds. Wood and fiber science. 1992;24(3):260–273.
- Brady DE, Kamke FA. Effects of hot-pressing parameters on resin penetration. Forest Product J. 1988;38:11–12.
- Cognard P. Technical characteristics and testing methods for adhesives and sealants. In Handbook of Adhesives and Sealants. 2005;1:21–99. doi: 10.1016/S1874-5695(02)80003-3.
- Scheikl M. Properties of the glue line–microstructure of the glue line. In: Wood adhesion and glued products: glued wood products state of the art report E. EUR 20610 EN (2003), 195pp. Euro: 35.50, 2003, Page(s) 195, ISBN 92-894-4892-X.
- Johnson SE, Kamke FA. Quantitative analysis of gross adhesive penetration in wood using fluorescence microscopy. J Adhesion. 1992;40(1):47–61. doi: 10.1080/00218469208030470.
- Vick CB. Gap-filling phenol-resorcinol resin adhesives for construction. Forest Product J. 1973;33–41.
- Frihart CR, Hunt CG. 2010. Adhesives with wood materials—bond formation and performance. Wood handbook: wood as an engineering material, (General Technical Report FPL-GTR-190, Chapter 10), 10.1–10.24.
- Kairi M. 2002). 4.4 Glued/screwed joints/screw glued wooden structures. In: Wood adhesion and glued products: glued wood products state of the art report, 115.
- Jost M, Sernek M. Shear strength development of the phenol-formaldehyde adhesive bond during cure. Wood Sci Technol. 2009;43(1-2):153–166. doi: 10.1007/s00226-008-0217-2.
- Gumowska A, Wronka A, Borysiuk P, et al. Production of layered wood composites with a time-saving layer-by-layer addition. BioResources. 2018;13(4):8089–8099. doi: 10.15376/biores.13.4.8089-8099.
- Vick CB. 1999). Adhesive bonding of wood materials. In: Wood handbook – wood as an engineering material, 9-1–9-24.
- Lutz JF. 1978. Wood veneer: log selection, cutting, and drying. Technical Bulletin No. 1577. U.S. Department of Agriculture: Washington, DC, USA.
- Youngquist JA. Wood-based composites and panel products. In: Wood handbook—wood as an engineering material. 1999;1–31.
- Aydin I, Colakoglu G, Colak S, et al. Effects of moisture content on formaldehyde emission and mechanical properties of plywood. Build Environ. 2006;41(10):1311–1316. doi: 10.1016/j.buildenv.2005.05.011.
- Bekhta P, Ortynska G, Sedliacik J. Properties of modified Phenol-Formaldehyde adhesive for plywood panels manufactured from high moisture content veneer. Drvna Ind. 2014;65(4):293–301. doi: 10.5552/drind.2014.1350.
- Wang J, Wang X, Zhan T, et al. Preparation of hydro-thermal surface-densified plywood inspired by the stiffness difference in “sandwich structure” of wood. Constr Build Mater. 2018;177:83–90. doi: 10.1016/j.conbuildmat.2018.05.135.
- Clark RJ, Karchesy JJ, Krahmer RL. Investigation of a new resin as an exterior wwadhesive to bond high moisture content veneers and glulam. Forest Product J. 1988;38(7/8):23–28.
- Steiner PR, Troughton GE, Andersen AW. Aqueous phenolic dispersions for bonding higher moisture content veneers. Forest Product J. 1993;43(10):29–34.
- Urbanik E, Jabloński M, Jóźwiak M. 1997). Gluing high moisture content veneer with adhesives based on PRF and PF In Adhesives in woodworking industry. Proceedings of XIII Symposium, Slovakia, p. 225–232.
- Pizzi A, Mittal KL. 2003. Handbook of adhesive technology. 2nd ed. New York: Dekker.
- Bekhta P, Salca E-A, Lunguleasa A. Some properties of plywood panels manufactured from combinations of thermally densified and non-densified veneers of different thicknesses in one structure. J Build Eng. 2020;29:101116. doi: 10.1016/j.jobe.2019.101116.
- Hoong YB, Pizzi A, Chuah LA, et al. Phenol-urea-formaldehyde resin co-polymer synthesis and its influence on elaeis palm trunk plywood mechanical performance evaluated by 13C NMR and MALDI-TOF mass spectrometry. Int J Adhes Adhes. 2015;63:117–123. doi: 10.1016/j.ijadhadh.2015.09.002.
- Kurt R, Cil M. Effects of press pressure on glue line thickness and properties of laminated veneer lumber glued with melamine urea formaldehyde adhesive. BioRes. 2012;7(3):4341–4349. doi: 10.15376/biores.7.3.4341-4349.
- Ohyama M, Tomita B, Hse CY. Curing property and plywood adhesive performance of resol-type phenol-urea-formaldehyde cocondensed resins. Holzforschung. 1995;49(1):87–91. doi: 10.1515/hfsg.1995.49.1.87.
- Bekhta P, Pipíška T, Gryc V, et al. Properties of plywood panels composed of thermally densified and non-densified alder and birch veneers. Forests. 2023;14(1):96. doi: 10.3390/f14010096.
- Salca E-A, Bekhta P, Seblii Y. The effect of veneer densification temperature and wood species on the plywood properties made from alternate layers of densified and non-densified veneers. Forests. 2020;11(6):700. doi: 10.3390/f11060700.