Document Type : Research Paper

Author

Wood and Forest Products Science Research Division, Research Institute of Forests and Rangelands, Tehran, Iran,

Abstract

Abstract: The application of corn stalks in the production of oriented strand board (OSB) is investigated. Corn stalks strands were produced in three sizes of 50, 75 and 100 millimeters length and dried to reach 2% moisture content. Oriented strand boards were made using either urea formaldehyde, melamine formaldehyde and phenol formaldehyde resin, and two press temperatures of 175 and 185 ° C. OSB boards using poplar wood strands, 100 millimeters long were also produced as control samples. The results of strength measurements of the boards were statistically analyzed using factorial experiment and completely randomized block design. The grouping of the averages was based on Duncan Multiple Range Test. The results showed that the effect of the resin type on the flexural properties and internal bonding of the boards is statistically significant and boards produced using phenol formaldehyde resin exhibited the lowest modulus of rupture, modulus of elasticity and internal bonding strength. However, the adhesive type did not statistically influence the physical properties. The strand length also statistically influenced the board strength properties and boards made using poplar strands showed higher strength compared to corn stalks strands. The thickness swelling of the poplar OSB was almost twice the values of corn stalks OSB but the water absorption of these boards was lower than of corn stalks OSB. Press temperature adversely affected the modulus of rupture and elasticity, but higher press temperature improved the internal bonding strength. Higher press temperature increased the physical properties of the boards.

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-Agricultural Statistics Year Book 2013-2014, 2015. Ministry of Jihad-e-Agriculture, Deputy of planning and Economic A fairs, Bureau of Statistics and Information Technology, ISBN: 978-964-476-076-3, p:146.
-Akgul, M., Guler, C. and Uner, B., 2010. Opportunities in utilization of agricultural residues in bio- composite production: Corn stalk (Zea mays indurate Sturt) and oak wood (Quercus Robur L.) fiber in medium density fiberboard. African Journal of Biotechnology, 9(32): 5090-5098.
-Amirhoseini, A., 2001.Investigation the possibility of manufacturing particleboard from reed and mixed forests species with using phenol-formaldehyde adhesive. Master science thesis, Tehran university.
-European Standard EN 310, 1996. Wood based panels, determination of modulus of elasticity in bending and bending strength. European Standardization Committee, Brussell.
-European Standard EN 312, 2003. Particleboards specifications, requirements for general purpose boards for use in general conditions. European Standardization Committee, Brussell.
-European Standard EN 317, 1996. Particleboards and fiberboards, determination of swelling in thickness after immersion. European Standardization Committee, Brussell.
-European Standard EN 319, 1996. Wood based panels, determination of tensile strength perpendicular to plane of the board. European Standardization Committee, Brussell.
-European Standard EN 326-1, 1993. Wood based panels, Sampling, cutting and inspection. Sampling and cutting of test pieces and expression of test results.
-Fauzi, F., Sahr, O., Wahyu, H., Edi, S., Gu-Joong, K., Jin-Heon, K., Soon-Il, H. and Nam-Hun, K., 2012. Properties of oriented strand board made from Betung bamboo (Dendrocalamus asper (Schultes.f) Backer ex Heyne). Wood Science and Technology, January 2012, Volume 46, Issue 1, pp 53-62.
-Fauzi, F., Jang, J., Lee, S., Santosa, I., Hidayat, W., Kwon, J. and Kim, N., 2015. Effect of Bamboo Species and Resin Content on Properties of Oriented Strand Board Prepared from Steam-treated Bamboo Strands Bioresources Iournal,Vol 10, No 2 (2015).
-Han, G., Wu, Q. and Viosky, R., 2005. Physical and Mechanical Properties of Sugarcane Rind and Mixed Hardwood Oriented Strand board Bonded with PF Resin. Forest Products Journal. Oct. 1, 2005, 5705.
-Hiziroglu, S., 2009 Properties of Strand board Panels Manufactured from Eastern Red cedar. Journal of Materials, 2, 926-933; doi:10.3390/ma2030926
-Kargarfard, A., 2010. Utilization of corn in particleboard production. Iranian Journal of Wood And paper Science Research. Vol. 25, No. (2)147-156.
-Kelemwork, S., Tahir, P., Ding, W. and Ashaari, Z., 2005. Effects of Particle Size and Orientation on Properties of Particleboard Made From Ethiopian Highland Bamboo (Yushania Alpina). Proceedings of Scientific Session 90. Using composites as a tool for a sustainable forestry. XXII IUFRO World Congress “Forests in the Balance. Brisbane, Australia, August 12, 2005.
-Parga Silva, A., Rocco Lahr, A., Christoforo, A. and Panzera, T., 2012. Properties of Sugar Cane Bagasse to Use in OSB. International Journal of Materials Engineering 2012, 2(4): 50-56 DOI: 10.5923/j.ijme. 20120204.04.
-Saraeian, A, karimi, A. and jahan latibari, A., 2004. Evaluation of chemical composition of various parts of wheat stalk. Iranian j. natural res. Res. 56: 447- 458
-Shakeri, A,. Tabarsa, T. and Tasooji, M., 2010. Investigation the Properties of Acrylated Epoxidized Soy Oil-Wheat Straw Particle Board. Iranian Journal of Polymer Science and Technology. Res. 1: 29-39