Materials 2022 , 15 , 4542
26of 27
149. Faria, D.L.; Guimar ã es, I.L.; Sousa, T.B.; Prot á sio, T.D.P.; Mendes, L.M.; Guimar ã es, J.B., Jr. Technological properties of medium density particleboard produced with soybean pod husk and Eucalyptus wood. Sci. For. 2020 , 48 , 126. [CrossRef] 150. Borysiuk, P.; Jenczyk-Tolloczko, I.; Auriga, R.; Kordzikowski, M. Sugar beet pulp as raw material for particleboard production. Ind. Crops Prod. 2019 , 141 , 111829. [CrossRef] 151. Nonaka, S.; Umemura, K.; Kawai, S. Characterization of bagasse binderless particleboard manufactured in high-temperature range. J. Wood Sci. 2013 , 59 , 50–56. [CrossRef] 152. Xu, X.; Yao, F.; Wu, Q.; Zhou, D. The influence of wax-sizing on dimension stability and mechanical properties of bagasse particleboard. Ind. Crops Prod. 2009 , 29 , 80–85. [CrossRef] 153. Pirayesh, H.; Khazaeian, A.; Tabarsa, T. The potential for using walnut ( Juglans regia L.) shell as a raw material for wood-based particleboard manufacturing. Compos. Part B Eng. 2012 , 43 , 3276–3280. [CrossRef] 154. Batiancela, M.A.; Acda, M.N.; Cabangon, R.J. Particleboard from waste tea leaves and wood particles. J. Compos. Mater. 2014 , 48 , 911–916. [CrossRef] 155. Fiorelli, J.; Bueno, S.B.; Cabral, M.R. Assessment of multilayer particleboards produced with green coconut and sugarcane bagasse fibers. Constr. Build. Mater. 2019 , 205 , 1–9. [CrossRef] 156. Kl í mek, P.; Wimmer, R.; Meinlschmidt, P.; K ú dela, J. Utilizing Miscanthus stalks as raw material for particleboards. Ind. Crops Prod. 2018 , 111 , 270–276. [CrossRef] 157. Nicolao, E.S.; Leiva, P.; Chalapud, M.C.; Ruseckaite, R.A.; Ciannamea, E.M.; Stefani, P.M. Flexural and tensile properties of biobased rice husk-jute-soybean protein particleboards. J. Build. Eng. 2020 , 30 , 101261. [CrossRef] 158. Grigoriou, A.H.; Ntalos, G.A. The potential use of Ricinus communis L. (Castor) stalks as a lignocellulosic resource for particle- boards. Ind. Crop. Prod. 2001 , 13 , 209–218. [CrossRef] 159. Iswanto, A.H.; Azhar, I.; Susilowati, A.; Supriyanto; Ginting, A. Effect of Wood Shaving to Improve the Properties of Particleboard Made from Sorghum Bagasse. Int. J. Mater. Sci. Appl. 2016 , 5 , 113. [CrossRef] 160. Khalil, H.P.S.A.; Fazita, M.R.N.; Bhat, A.H.; Jawaid, M.; Fuad, N.A.N. Development and material properties of new hybrid plywood from oil palm biomass. Mater. Des. 2010 , 31 , 417–424. [CrossRef] 161. Varanda, L.D.; Nascimento, M.F.D.; Christoforo, A.L.; Silva, D.A.L.; Lahr, F.A.R. Oat hulls as addition to high density panels production. Mater. Res. 2013 , 16 , 1355–1361. [CrossRef] 162. Guler, C.; Buyuksari, U. Effect of production parameters on physical and mechanical properties of particleboards made from peanut (Arachis hypogaea L.) hull. Bioresources 2011 , 6 , 5027–5036. 163. Papadopoulos, A.N.; Hill, C.A.S.; Gkaraveli, A.; Ntalos, G.A.; Karastergiou, S.P. Bamboo chips ( Bambusa vulgaris ) as an alternative lignocellulosic raw material for particleboard manufacture. Holz als Roh- und Werkstoff 2004 , 62 , 36–39. [CrossRef] 164. Barbu, M.C.; Sepperer, T.; Tudor, E.M.; Petutschnigg, A. Walnut and Hazelnut Shells: Untapped Industrial Resources and Their Suitability in Lignocellulosic Composites. Appl. Sci. 2020 , 10 , 6340. [CrossRef] 165. Minopoulou, E.; Dessipri, E.; Chryssikos, G.D.; Gionis, V.; Paipetis, A.; Panayiotou, C. Use of NIR for structural characterization of urea–formaldehyde resins. Int. J. Adhes. Adhes. 2003 , 23 , 473–484. [CrossRef] 166. Sahin, A.; Tasdemir, H.M.; Karabulut, A.F.; Guru, M. Mechanical and Thermal Properties of Particleboard Manufactured from Waste Peachnut Shell with Glass Powder. Arab. J. Sci. Eng. 2017 , 42 , 1559–1568. [CrossRef] 167. Battegazzore, D.; Alongi, J.; Duraccio, D.; Frache, A. All Natural High-Density Fiber- and Particleboards from Hemp Fibers or Rice Husk Particles. J. Polym. Environ. 2017 , 26 , 1652–1660. [CrossRef] 168. Tangjuank, S. Thermal insulation and physical properties of particleboards from pineapple leaves. Int. J. Phys. Sci. 2011 , 6 , 4528–4532. 169. Pan, Z.; Cathcart, A.; Wang, D. Properties of particleboard bond with rice bran and polymeric methylene diphenyl diisocyanate adhesives. Ind. Crops Prod. 2006 , 23 , 40–45. [CrossRef] 170. Hussein, Z.; Ashour, T.; Khalil, M.; Bahnasawy, A.; Ali, S.; Hollands, J.; Korjenic, A. Rice Straw and Flax Fiber Particleboards as a Product of Agricultural Waste: An Evaluation of Technical Properties. Appl. Sci. 2019 , 9 , 3878. [CrossRef] 171. Canadido, L.S.; Saito, F.; Suzuki, S. Influence of Strand Thickness and Board Density on the Orthotropic Properties of Oriented Strandboard. Mokuzai Gakkaishi 1990 , 36 , 632–636. 172. Sumardi, I.; Ono, K.; Suzuki, S. Effect of board density and layer structure on the mechanical properties of bamboo oriented strandboard. J. Wood Sci. 2007 , 53 , 510–515. [CrossRef] 173. Cai, Z.Y.; Wu, Q.L.; Lee, J.N.; Hiziroglu, S. Influence of board density, mat construction, and chip type on performance of particleboard made from eastern redcedar. For. Prod. J. 2004 , 54 , 226–232. 174. Kalaycıoglu, H.; Nemli, G. Producing composite particleboard from kenaf ( Hibiscus cannabinus L.) stalks. Ind. Crops Prod. 2006 , 24 , 177–180. [CrossRef] 175. Thoemen, H.; Ruf, C. Measuring and simulating the effects of the pressing schedule on the density profile development in wood-based composites. Wood Fiber Sci. 2008 , 40 , 325–338. 176. Kwon, J.H.; Ayrilmis, N. Effect of Hot-Pressing Parameters on Selected Properties of Flakeboard. WoodRes. 2016 , 61 , 1033–1040. 177. Cai, Z.; Muehl, J.; Winandy, J. Effects of Pressing Schedule on Formation of Vertical Density Profile for MDF Panels. In Proceedings of the 40th International Wood Composites Symposium, Seattle, WA, USA, 11–12 April 2006. 178. Nogueira, N.D.; Narciso, C.R.P.; Felix, A.D.L.; Mendes, R.F. Pressing Temperature Effect on the Properties of Medium Density Particleboard Made with Sugarcane Bagasse and Plastic Bags. Mater. Res. 2022 , 25 . [CrossRef]
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