[1] | Ghasemian, A., Ghaffari, M., & Ashori, A. 2011. Strength-enhancing effect of cationic starch on mixed recycled and virgin pulps. Carbohydrate Polymers (DOI: 10.1016/j.carbpol.2011.09.010). |
[2] | Hamzeh, Y., Mirzaei, B., Doust Hosseini, K., Ashori, A., Rashedi, A., & Olfat, A. 2011. Physicochemical properties of solid sludge of paper mills. Iranian Journal of Wood and paper Science Research (Accepted). |
[3] | Sheshmani, S., Ashori, A., & Farhani, F. 2011. Effects of extractives on the performance properties of wood flour-polypropylene composites. Applied Polymer Science (DOI: 10.1002/app.34745). |
[4] | Hamzeh, Y., Ashori, A., Mirzaei, B., Abdulkhani, A., & Molaei, M. 2011. Current and potential capabilities of biomass for green energy in Iran. Renewable & Sustainable Energy Review (DOI: 10.1016/j.rser.2011.07.060). |
[5] | Ashori, A., Tabarsa, T., & Amosi, F. 2011. Evaluation of using waste timber railway sleeper in wood-cement composite materials. Construction and Building Materials (DOI: 10.1016/j.conbuildmat.2011.08.016). |
[6] | Ashori, A., & Nourbakhsh, A. 2011. Preparation and characterization of polypropylene/wood flour/nanoclay composites. European Journal of Wood and Wood Products (DOI: 10.1007/s00107-010-0488-9). |
[7] | Ashori, A., Tabarsa, T., & Sepahvand, S. 2012. Cement-bonded composite boards made from poplar strands. Construction and Building Materials 26 (1): 131–134. |
[8] | Azizi, K., Tabarsa, T., & Ashori, A. 2011. Performance characterizations of particleboards made with wheat straw and waste veneer splinters. Composites Part B 42 (7): 2085–2089. |
[9] | Ashori, A., Tabarsa, T., & Valizadeh, I. 2011. Fiber reinforced cement boards made from old newsprint. Materials Science and Engineering A 528 (25–26): 7801–7804. |
[10] | Sheykhnazari, S., Tabarsa, T., Ashori, A., Shakeri, A., & Golalipour, M. 2011. Bacterial synthesized cellulose nanofibers; Effects of growth times and culture mediums on the structural characteristics. Carbohydrate Polymers 86 (3): 1187–1191. |
[11] | Ashori, A., Tabarsa, T., Azizi, K., & Mirzabeygi, R. 2011. Wood-wool cement board using mixture of eucalypt and poplar. Industrial Crops and Products 34 (1): 1146–1149. |
[12] | Tabarsa, T., & Ashori, A. 2011. Dimensional stability and water uptake of cement-bonded wood composite. Polymers and the Environment 19 (2): 518–521. |
[13] | Tabarsa, T., Ashori, A., & Golamzadeh, M. 2011. Evaluation of surface roughness and mechanical properties of particleboard panels made from bagasse. Composites Part B 42 (5): 1330–1335. |
[14] | Moazami, N., Ranjbar, R., Ashori, A., Tangestani, M., & Sheykhi Nejad, A. 2011. Biomass and lipid productivities of marine microalgae isolated from the Persian Gulf and the Qeshm Island. Biomass and Bioenergy 35 (5): 1935–1939. |
[15] | Hamzeh, Y., Ashori, A., & Mirzaei, B. 2011. Effects of waste paper sludge on the physicomechanical properties of high density polyethylene/wood flour composites. Polymers and the Environment 19 (1): 120–124. |
[16] | Kiani, H., Ashori, A., & Mozaffari, S.A. 2011. Water resistance and thermal stability of hybrid lignocellulosic filler-PVC composites. Polymer Bulletin 66 (6): 797–802. |
[17] | Ashori, A., Hamzeh, Y., & Amani, F. 2011. Lemon balm (Melissa officinalis): Chemical composition and fiber morphology. Polymers and the Environment 19 (1): 297–300. |
[18] | Ashori, A., Kiani, H., & Mozaffari, S.A. 2011. Mechanical properties of reinforced polyvinyl chloride composites: Effect of filler form and content. Applied Polymer Science 120 (3): 1788– 1793. |
[19] | Ziaei Tabari, H., Nourbakhsh, A., & Ashori, A. 2011. Effects of nanoclay and coupling agent on the mechanical, morphological, and thermal properties of wood flour/polypropylene composites. Polymer Engineering and Science 51 (2): 272–277. |
[20] | Tabarsa, T., Jahanshahi, S. & Ashori, A. 2011. Mechanical and physical properties of wheat straw boards bonded with a tannin modified phenol-formaldehyde adhesive. Composites Part B 42 (2): 176–180. |
[21] | Nourbakhsh, A., Farhani Baghlani, F., & Ashori, A. 2011. Nano-SiO2 filled rice husk/polypropylene composites: Physico-mechanical properties. Industrial Crops and Products 33 (1): 183–187. |
[22] | Ashori, A. 2010. Study on mechanical properties of wood fiber/polypropylene composites. Advanced Materials Research 123-125: 1195–1198. |
[23] | Nourbakhsh, A., Ashori, A., Ziaei Tabari, H., & Rezaei, F. 2010. Mechanical and thermo-chemical properties of wood-flour polypropylene blends. Polymer Bulletin 65 (7): 691–700. |
[24] | Sheshmani, S., Ashori, A., & Hamzeh, Y. 2010. Physical properties of polyethylene/wood fiber/organoclay nanocomposites. Applied Polymer Science 118 (6): 3255–3259. |
[25] | Ashori, A., & Nourbakhsh, A. 2010. Performance properties of microcrystalline cellulose as a reinforcing agent in wood plastic composites. Composites Part B 41 (7): 578–581. |
[26] | Ashori, A. 2010. Hybrid composites from waste materials. Polymers and the Environment 18 (1): 65–70. |
[27] | Ashori, A., & Sheshmani, S. 2010. Hybrid composites made from recycled materials: Moisture absorption and thickness swelling behavior. Bioresource Technology 101 (12): 4717–4729. |
[28] | Ashori, A., & Nourbakhsh, A. 2010. Bio-based composites from waste agricultural residues. Waste Management 30 (4): 680–684. |
[29] | Nourbakhsh, A., Karegarfard, A., Ashori, A., & Nourbakhsh, A. 2010. Effects of particle size and coupling agent on mechanical properties of particle-reinforced composites. Thermoplastic Composite Materials 23 (2): 169–174. |
[30] | Nourbakhsh, A., Ashori, A., & Jahan-Latibari, A. 2010. Evaluation of the physical and mechanical properties of medium density fiberboard made from old newsprint fibers. Reinforced Plastics and Composites 29 (1): 5–11. |
[31] | Nourbakhsh, A., & Ashori, A. 2010. Particleboards made from waste paper treated with maleic anhydride. Waste Management and Research 28 (1): 51–55. |
[32] | Ashori, A., & Nourbakhsh, A. 2010. Reinforced polypropylene composites: Effects of chemical compositions and particle size. Bioresource Technology 101 (7): 2515–2519. |
[33] | Nourbakhsh, A., & Ashori, A. 2010. Wood plastic composites from agro-waste materials: Analysis of mechanical properties. Bioresource Technology 101 (7): 2525–2528. |
[34] | Nourbakhsh, A., Ashori, A., & Kouhpayahzadeh, M. 2009. Giant milkweed (Calotropis persica) fibers –– A potential reinforcement agent for thermoplastics composites. Reinforced Plastics and Composites 28 (17): 2143–2149. |
[35] | Ashori, A., Nourbakhsh, A., & Karegarfard, A. 2009. Properties of medium density fiberboard based on bagasse fibers. Composite Materials 43 (18): 1927–1934. |
[36] | Ashori, A., & Nourbakhsh, A. 2009. Studies on Iranian cultivated paulownia–a potential source of fibrous raw material for paper industry. European Journal of Wood and Wood Products 67 (3): 323–327. |
[37] | Ashori, A., & Nourbakhsh, A. 2009. Effects of nanoclay as a reinforcement filler on the physical and mechanical properties of wood based composite. Composite Materials 43 (18): 1869–1875. |
[38] | Ashori, A., & Bahreini, Z. 2009. Evaluation of Calotropis gigantea as a promising raw material for fiber-reinforced composite. Composite Materials 43 (11): 1297–1304. |
[39] | Nourbakhsh, A., & Ashori, A. 2009. Influence of nanoclay and coupling agent loading on the physical-mechanical properties of bagasse/PP nanocomposite. Applied Polymer Science 112 (3): 1386–1390. |
[40] | Ashori, A., & Nourbakhsh, A. 2009. Characteristics of wood plastic composites made of recycled materials. Waste Management 29 (4): 1291–1295. |
[41] | Ashori, A., & Nourbakhsh, A. 2009. Mechanical behavior of agro-residue reinforced polyethylene composites. Applied Polymer Science 111 (5): 2616–2620. |
[42] | Nourbakhsh, A., & Ashori, A. 2009. Preparation and properties of wood plastic composites made of recycled HDPE. Composite Materials 43 (8): 877–883. |
[43] | Ashori, A., & Nourbakhsh, A. 2009. Polypropylene cellulose-based composites: The effect of bagasse reinforcement and polybutadiene isocyanate treatment on the mechanical properties. Applied Polymer Science 111 (4): 1684–1689. |
[44] | Nourbakhsh, A., & Ashori, A. 2008. Highly fiber-loaded composites: Physical and mechanical properties. Polymers and Polymer Composites 16 (5): 283–287. |
[45] | Ashori, A., & Nourbakhsh, A. 2008. Effect of press cycle time and resin contents on physical and mechanical properties of particleboard panels made from the underutilized low-quality raw materials. Industrial Crops and Products 28 (2): 225–230. |
[46] | Ashori, A. 2008. Municipal solid waste as a source of lignocellulosic fiber and plastics for composite industries. Polymer-Plastics Technology and Engineering 47 (8): 741–744. |
[47] | Nourbakhsh, A., Kokta, B.V., Ashori, A., & Jahan-Latibari, A. 2008. Effect of a novel coupling agent, polybutadiene isocyanate, on mechanical properties of wood-fiber polypropylene composites. Reinforced Plastics and Composites 27 (16-17): 1679–1687. |
[48] | Ashori, A., & Nourbakhsh, A. 2008. A comparative study on mechanical properties and water absorption behavior of fiber-reinforced polypropylene composites prepared by OCC fiber and aspen fiber. Polymer Composites 29 (5): 574–578. |
[49] | Nourbakhsh, A., & Ashori, A. 2008. Fundamental studies on wood–plastic composites: Effects of fiber concentration and mixing temperature on the mechanical properties of poplar/PP composite. Polymer Composites 29 (5): 569–573. |
[50] | Ashori, A. 2008. Wood-plastic composites as promising green-composites for automotive industries! Bioresource Technology 99 (11): 4661–4667. |
[51] | Ashori, A., Raverty, W.D., Vanderhoek, N., & Ward, J.V. 2008. Surface topography of kenaf (Hibiscus cannabinus) sized paper. Bioresource Technology 99 (2): 404–410. |
[52] | Ashori, A., & Raverty, W.D. 2007. Printability of sized kenaf (Hibiscus cannabinus) paper. Polymer-Plastics Technology and Engineering 46 (7): 683–687. |
[53] | Ashori, A. 2006. Non-wood fibers-A potential source of raw material in papermaking. Polymer-Plastics Technology and Engineering 45 (10): 1133–1136. |
[54] | Ashori, A. 2006. Pulp and paper from kenaf bast fibers. Fibers and Polymers 7 (1): 26–29. |
[55] | Ashori, A., Jalaluddin, H., Wan Md. Zin, W.Y., & Mohd Nor, M.Y. 2006. Enhancing dry-strength properties of kenaf (Hibiscus cannabinus) paper through chitosan. Polymer-Plastics Technology and Engineering 45 (1): 125–129. |
[56] | Ashori, A., Jalaluddin, H., Raverty, W.D., & Mohd Nor, M.Y. 2006. Chemical and morphological characteristics of Malaysia cultivated kenaf (Hibiscus cannabinus) fiber. Polymer-Plastics Technology and Engineering 45 (1): 131–134. |
[57] | Ashori, A., Jalaluddin, H., Raverty, W.D., & Mohd Nor, M.Y. 2006. Effect of accelerated aging on properties of kenaf (Hibiscus cannabinus) paper sized with various polymers. Polymer-Plastics Technology and Engineering 45 (2): 213–216. |
[58] | Ashori, A., Raverty, W.D., & Jalaluddin, H. 2005. Effect of chitosan addition on the surface properties of kenaf (Hibiscus cannabinus) paper. Iranian Polymer Journal 14 (9): 807–814. |
[59] | Ashori, A., Raverty, W.D., & Jalaluddin, H. 2005. Effect of TCF and ECF sequences on whole stem kenaf (Hibiscus cannabinus) pulp characteristics. Tropical Forest Science 17 (3): 462–473. |
[60] | Ashori, A., Jalaluddin, H., Wan Rosli, W.D., Mohd Nor, M.Y., Wan Md. Zin, W.Y., & Khairul Zaman, M.D. 2004. TCF bleaching of kenaf (Hibiscus cannabinus) pulp for papermaking applications. Tropical Forest Science 16 (4): 463–471. |
[61] | Ashori, A., & Ebrahimi, G. 1999. Establishing kiln drying schedule for oak (Quercus castaneifolia) lumber in conventional kiln. Agriculture & Natural Resources 6 (3): 31–37. |