[1] Naseri, H., Afshin, H. and Tufani milani, A., 2014. Investigation into mechanical properties of fibers reinforced lightweight concrete precast panels. Concrete research journal, 7 (2): 7-15.
[2] Rahmanpour, M. and Afshin, H., 2016. The combined retrofitting of reinforced light structural concrete beams in near joint by using of steel plates and CFRP jacket under cycling loads. Concrete research journal, 9 (1): 71-82.
[3] Golbabaei, F., 2015. Investigation on cement brick production containing wood sawdust. Iranian journal of wood and paper science research, 30 (3): 457-465. (In Persian).
[4] Jonoobi. M., Rahamin, H. and rafieyan, F.,2015. Cellulose nanocrystal properties and their applications. Iranian Journal of wood and paper industries, 6(1):167-192. (In Persian).
[5] Sadr Momtazi, A., Kohani Khoshkbijari, R. and Lotfi Omran. O., 2015. Mechanical and durability properties of self-compacting concrete containing nano silica particles considering optimum percentages of fibers. Concrete research journal, 8 (2): 19-34.
[6] Tabei, A., Jamalzadeh, M. and Pourimanparast, M.M., 2011. An investigation of some physical and mechanical properties of the wood-cement made of poplar sawdust and portland cement mix. Journal of renewable natural resources research, 2 (4): 39-54.
[7] Younesi-Kordkheili, H., Naghdi, R. and Honarbakhsh Raouf, A., 2016. Investigation on some of physical and mechanical properties off polypropylene fiber/wood/cement composites. Iranian journal of wood and paper industries, 7 (2): 207-217. (In Persian).
[8] Nasiri, H., Varshoee, A. and Kargarfard, A., 2011. Investigation on the properties of cement-bagasse fiber composite as a structural material. Iranian journal of wood and paper science research, 26 (2): 291-299. (In Persian).
[9] Mohammadkazemi, F., Dousthoseyni, K., Enayati, A.A. and Azadfallah, M., 2013. Effect of nano silica and Type of lignocellulosic material on physical and mechanical properties of wood-cement panels. Journal of forestry and wood products, 66 (2): 193-201. (In Persian).
[10] Abdolali Sarbandi, M., Bolhasani, M., Bilba, K. and Ashjary, R., 2010. Investigation of the effect nano silica and eucalyptus fiber on MOR of fiber-cement composite products. International congress of wood and paper industries, Chalous, p. 103.
[11] Standard Test Methods for Sampling and Testing Brick and Structural Clay Tile, Book of Standards Volume: 04.05.
[12] Arisoy, B. and Wu, H.C., 2008. performance of a fiber reinforced lightweight concrete panel. Institution of civil engineering, 2 (1): 157–162.
[13] Han, G., Lei, Y., Wu, Q., Kojima, Y. and Suzuki, S., 2008. Bamboo–fiber filled high density polyethylene composites; effect of coupling treatment and nano clay. Journal of polymer environment, 21 (2): 1567-1582.
[14] Wei, Y.M. and Tomita, B., 2001. Effects of five additive materials on mechanical and dimensional properties of wood cement-bonded boards. Wood science, 47 (1): 437-444.
[15] Ismaeilimoghadam, S., Masoudifar, M., Nosrati, B. and Shamsian, M., 2016. Effect of inorganic nanoparticles on mechanical and morphological properties of wood flour-polypropylene nano composit. Drewno, 59 (196): 127-137.
[16] Li, H., Xiao, H.G., Yuan, J. and Ou, J., 2005. Micro structure of cement mortar with nano-particle. Composites: Part B, 35 (1): 185-189.
[17] Ji, T., 2005. Preliminary study on the water permeability and microstructure of concrete incorporating nano-SiO2. Cement and concrete research, 35 (1): 1943-1947.
[18] Li, G. and Zhao, X., 2003. Properties of concrete incorporating fly ash and ground granulated blast-furnace silage. Cement and concrete composites, 25 (2): 293-299.
[19] Bahadori, H. and Hosseini, P., 2012. Reduction of cement consumption by the aid of silica nano-particles (investigation on concrete properties). Journal of civil eng manage, 18 (3): 416- 425.
[20] Gong, H.Y., Zhang, Y.J., Quan, J. and Che, S.W., 1993. Preparation and properties of cement based piezoelectric composites modified by CNTs. Current Applied Physics, 11 (1): 653-656.
[21] Younesi Kordkheili, H., Farsi, M. and Rezazadeh, Z., 2013. Physical, mechanical and morphological properties of polymer composites manufactured from carbon nanotubes and wood flour. Composites part B, 44 (1): 750-755.
[22] Enayati., A.A. 2009., Wood physics, 317p. (In Persian).
[23] Kord, B., Taghizadeh Haratbar, D., Malekian, B. and Ismaeilimoghadam, S., 2016. Effect of chemical modification of wood flour on long-term hygroscopic behavior of polypropylene composites. Journal of thermoplastic composite materials, 29 (4): 577–588.
[24] Md Akil, H., Cheng, L.W., Mohd Ishak, Z.A., Abu Bakar, A. and Abd Rahman, M.A., 2009. Water absorption study on pultruded jute fibre reinforced unsaturated polyester composites. Composite science and technology, 69 (11–12):1942–1948.
[25] Dhakal, H., Zhang, Z. and Richardson, M., 2007. Effect of water absorption on the mechanical properties of hemp fibre reinforced unsaturated polyester composites. Composite science and technology, 67 (7–8): 1674–1683.
[26] Quercia, G., Spiesz, P., Husken, G. and Brouwers, J., 2012. Effects of Amorphous Nano silica addition on mechanical and durability performance of scc mixture. International congress on durability of concrete, 8-12.
[27] Roohani, M., Kord, B., Motie, N. and Sharari, M., 2014. Biiodegradattiion behaviiors off cellllullose nanocrysttalls --PVA nanocomposiittes. Iranian journal of wood and paper industries, 5 (2): 1-13. (In Persian).
[28] Roohani, M., Habibi,Y., Belgacem, N.M., Ebrahim, G., Karimi, A.N. and Dufresne, A., 2008. Cellulose whiskers reinforced polyvinyl alcohol copolymers nanocomposites. European polymer journal, 44 (8):2489–2498.
[29] Kord, B., Jari, E., Najafi, A. and Tazakorrezaie, V., 2014. Effect of nano clay on the decay resistance and physico-mechanical properties of natural fiber reinforced plastic composites against white-rot fungi (Trametes Versicolor). Journal of thermoplastic composite materials, DOI: 0892705714563343.
[30] Kamyab, M. and Nazerian, M., 2016. Effect of lignocellolosic materials on hydration process and mechanical properties of particle board-chalk. Journal of forestry and wood products, 69 (2): 419-432.
[31] Najafi, A. and Khademi-Eslam, H., 2011, Lignocellulosic filler/recycled HDPE composites: effect of filler type on physical and flexural properties. Bioresources, 6 (3):2411-2424.
[32] Kazemi, S., Kiaeifar, A., Tajvidi, M. and Hamidinia, E., 2007. Water absorption behavior and thickness swelling rate of composites from sawdust and recycled plastics. Journal of reinforced plastic and composites, 26 (3): 341-348.