[1] Smith, I., Landis, E. and Gong, M., 2003. Fracture and fatigue in wood, John Wiley & Sons Ltd, England.
[2] Anderson, T.L., 1995. Fracture Mechanics: Fundamentals and Applications, CRC Press.
[3] Aminian, M., 2014. Fracture Mechanic. Journal of Manufacturing Engineering, 45: 121-118.
[4] Fereydoun, A. and yekta kia, F., 2010. The analysis of cracks in composite materials by method energy. The Journal of Modeling in Engineering, 7)17(:55-65.
[5] Abdolzadeh, H., Ebrahimi, Gh., Layeghi, M., Ghassemieh, M. and Mirshokraie, S.A., 2015. Fracture behavior of beech-furan wood/polymer under mode I. Iranian Journal of Wood and Paper Science Research, 29 (4): 605-618-2015.
[6] Alexander, B., 2012. Applied Fracture Mechanics, Published by InTech, Croatia.
[7] Wu, E.M., 1967. Application of fracture mechanics to anisotropic plates. Journal of applied Mechanics, 34(4): 967-974.
[8]. Moura, M.F.S.F., Morais, J.J.L. and Dourado, N., 2011. Mixed-mode (I + II) fracture characterization of wood bonded joints. Construction and Building Materials, 25(4): 1956- 1962.
[9] Matsumoto, N. and Nairn, J.A., 2009. The fracture toughness of medium density fiberboard (MDF) including the effects of fiber bridging and crack–plane interference. Engineering Fracture Mechanics, 76:2748–2757.
[10] Rathke, J., Sinn, G., Weigl, M.and Muller, U., 2012. Analyzing orthotropy in the core layer of wood based panels by means of fracture mechanics. European Journal of Wood and Wood Products, 70:851–856.
[11] Rebollar, M., Perez, R. and Vidal, R., 2007. Comparison between oriented strand boards and other wood-based panels for the manufacture of furniture. Materials and Design, 28:882-888.
[12] Banoun, F., Morgan, D., Viart, M. and Zsuffa, L., 1984. The poplar: A multi-purpose tree for forestry development. Unasylva (FAO), 36(3): 23-33.
[13] Thoemen, H., Irle, M. and Sernek, M., 2010. Wood- Based Panels, An Introduction for Specialists, Published by Brunel University Press, London, England.
[14] Gunduz, G., Yapici, F., Ozcifci, A. and Kalaycioglu. H., 2011. The Effects of Adhesive Ratio and Pressure Time on Some Properties of Oriented Strand Board. BioResources, 6(2): 2118-2124.
[15] Valentina, D., Ciobanu, O., Zeleniuc A. and Dumitrascu E., 2014. The Influence of Speed and Press Factor on Oriented Strand Board Performance in Continuous Press. BioResources, 9 (4): 6805-6816
[16] Modirrahmati, A.R. and Baghery, R., 2004. Poplar Clones Trial for three year short rotation system. Iranian journal of Forests and Poplar Research, 11(4): 613-637.
[17] Ghasemi, R., Asadi, F. and Torabi, A., 2009. Evaluation of height and diameter growth of indigenous and exotic poplar clones in one growing season. Iranian Journal of Forest, 1(4): 333-343.
[18] Roy, R.K., 2010. A primer on the Taguchi method. 2nd ed, society of manufacturing engineers.
[19] Antony, J., and Antony, J, F., 2001. Teaching the Taguchi method to industrial engineers. University Press, 50(4):141-149.
[20]Edalat1, H.R., Faezipour, M., Doost Hoseini, K., Tabarsa, T. and Mirshokraie, S.A., 2014. Evaluation of Penetration Effect of Phenol Formaldehyde Resin on Internal Bonding and Tensile Strength Parallel to Surface of Oriented Strand Board. Journal of Wood & Forest Science and Technology, 21 (1):149-164.
[21]Tabarsa, T. and Yadollahi, S., 2005. Effects of strand orientation and press cycle on properties of OSB made from Iranian beech strands.Journal of Agricultural sciences and Natural Resources, 12(4):162-167.
[22] Kamrani1, S., Moradifar, A., Yadollahi, S. and Saraeyan, A. R., 2013. The Investigation on Feasibility of Oriented Strand Boards to Parquet Production from Mixed Residual Veneer Popular and Beech. Iranian Journal of Wood and Paper Industries, 3(2):25-38.