[1] Clemons, C., 1992. Wood-plastic composites in the United States; The interfacing of two industries. Forest Product Journal, 52(6):10-18.
[2] Cai, Zh. and Ross, R.J., 2011. Mechanical properties of wood-based composite materials. In: Wood handbook, Forest Products Laboratory, 12.1-12.12.
[3] Odell, J., 2008. Wood plastic composite sill plate for continuous anchorage of shear walls in light frame wood structures. MSc thesis, Washington State University.
[4] Dolan, J.D., DuChateau, K.A., O'Dell, J., Wolcott, M.P. and Johnson, S., 2010. Effect of form change in sill plates on shear wall performance.11th World Conference on Timber Engineering, WCTE 2010. 2:1160-1168.
[5] Haiar, K.J., 2000. Performance and design of prototype wood-plastic composite sections. MSc thesis, Washington State University.
[6] Monterio, S.N, Rodriquez, R.J.S., De Souza, M.V. and D’Almeida, JRM., 1998. sugar cane bagasse waste as reinforcement in low cost composites. Advanced performance materials, 5(3):183-191.
[7] Schildmeyer, A.J., Wolcott, M.P. and Bender, D.A., 2009. Investigation of the temperature-dependent mechanical behavior of a polypropylene-pine composite. Journal of Materials in Civil Engineering; 21(9): 460–466.
[8] Tajvidi, M., Feizmand, M., Falk, R.H. and Felton, C., 2009. Effect of cellulose fiber reinforcement on the temperature dependent mechanical performance of nylon 6. Journal of Reinforced Plastic Composite; 28(22): 2781-2790.
[9] Tajvidi, M., Motie, N., Rassam, G.H., Falk, R.H. and Felton, C., 2010. Mechanical performance of hemp fiber polypropylene composites at different operating temperatures. Journal of Reinforced Plastic Composite, 29(5): 664-674.
[10] Dastoorian, F, Layeghi, M., Ebrahimi, Gh., Tajvidi, M. and Zabihzadeh, S.M., 2014. Evaluation of elevated temperature influence on mechanical properties of a commercial unrefined bagasse fiber-polypropylene composite. Iranian Journal of Wood and Paper Industries, 5(2): 129-142.(In Persian).
[11] Kobbe RG., 2005. Creep behavior of a Wood-Polypropylene Composite. MSc Thesis, Washington State University.
[12] Standard Practice for Conditioning Plastics for Testing, Annual Book of ASTM Standard, D 618, 2000.
[13] Standard Test Method for Tensile Properties of Plastics, Annual Book of ASTM Standard, D 638-03, 2002.
[14] Standard test method for compressive Properties of rigid plastics, Annual Book of ASTM Standard, D 695-02, 2002.
[15] Standard test method for flexural properties of unreinforced and reinforced plastics and electrical insulating materials, Annual Book of ASTM Standard, D 790-90, 2002.
[16] Xu, B., Simonsen, J. and Rochefort, W.E., 2000. Mechanical properties and creep resistance in polystyrene/polyethylene Blends. Journal of Applied Polymer Science, 76:1100-1108.
[17] Houshyar, S. and Shanks, R.A., 2004. Tensile properties and creep response of polypropylene fiber composites with variation of fiber diameter. Polymer International, 53:1752-1759.
[18] Altenbach, H., 2002. Creep analysis of thin walled structures. Journal of applied mathematics and mechanics, 82(8): 507-533.
[19] Ugural, A.C. and Fenster, S.K., 2003. Advanced strength and applied elasticity. 4th Ed., Prentice Hall, Upper Saddle River, New Jersey, United States.544p.
[20] Lockyear, S.A., 1999. Mechanical analysis of transversely loaded wood plastic sections, Master thesis, Washington state university.
[21] Hermanson, J.C., Adcock, T. and Wolcott, M.P., 1998. Evaluation of extruded materials group, Annual Navy Report. Washington state university.