Iranian Journal of Wood and Paper Science Research

Current Issue

By Issue

By Author

By Subject

Author Index

Keyword Index

About Journal

Aims and Scope

Editorial Board

Publication Ethics

Indexing and Abstracting

Related Links

FAQ

Peer Review Process

Journal Metrics

News

Investigating the use of wood-flour of hybrid populus (euphratica-alba) cultivar of “Mofid” in wood-plastic composite

Document Type : Research Paper

Authors

1 Department of pulp and paper industries, Gorgan University of Agricultural Sciences and Natural Resources , Gorgan , Iran.

2 Ph.D. Student of Wood and Paper Industries, Young Researchers and Elite Club, Karaj Branch, Islamic Azad University, Karaj, Iran.

3 Department of Chemical Engineering, Faculty of Engineering, Golestan University, Aliabad Katoul, Iran.

Abstract

Growing industrial trees is one of the solutions to overcome the wood resources lack. Thus, for efficient investment in wood cultivation, some cases such as annual growth of cultivated species, species adaptation to the climate of the region, adaptation to the soil of the culture site and also the quality of the produced wood and its capability as a raw material used in lignocellulosic industries, must be regarded. One of the recently introduced extremely fast growing poplar cultivars is the “Mofid” hybrid poplar (Populus euphratica Oliv. × P. alba L.). Since the wood and wood-waste produced during the wood mechanical conversion, are used as the main source in the wood-plastic composite production, in this study, the use of 4-year-old Mofid” hybrid poplar wood-flour as filler in the polyethylene wood-plastic production was investigated. Results indicated that the composites with Mofid poplar lignocellulosic filler had acceptable mechanical and physical properties, in a way that they were comparable with the composites containing hardwoods wood-flour filler (control treatment). Results showed that the plasticity and irreversible-strain during applying force were less in poplar filler-composites, so the tensile and flexural moduli were higher than control composites. Results indicated that the use of poplar wood-flour reduced the impact resistance value. Also, among the treatments of 20, 30 and 40% filler, the 30% filler treatment had the highest mechanical properties. All samples had acceptable water-absorption and thickness-swelling characteristics.

Keywords

References
-ASTM D256-10 (2010). “Standard Test Methods for Determining the Izod Pendulum Impact Resistance of Plastics” ASTM International, West Conshohocken, PA, USA.
-ASTM D638-14 (2014). “Standard test method for tensile properties of plastics,” ASTM International, West Conshohocken, PA, USA.
-ASTM D7031-04 (2004). “Standard guide for evaluating mechanical and physical properties of wood-plastic composite products,” ASTM International, West Conshohocken, PA, USA.
-ASTM D790-17 (2017). “Standard test methods for flexural properties of unreinforced and reinforced plastics and electrical insulating materials,” ASTM International, West Conshohocken, PA, USA.
-Ebrahimi, G., Rostampur, A., 2010. Wood Plasic Composites. Tehran University. 900p.
-Einollahi, Y., Hemmasi, A.H., Khademi Eslam, H., Ghasemi, E. and Talaeipour, M. 2021. The Effect of Different Mineral Fillers on Starch/Rice Husk Composite Properties. BioResources, 16(1): 1772-1786.
-Faezipour, M., Kaburani, A. and Parsapajuh, D. 2002. Paper and material composite of agricultural resources. University of Tehran Press, Tehran, 573p.
-Hernández, R.E. 2007. Swelling properties of hardwoods as affected by their extraneous substances, wood density, and interlocked grain. Wood and Fiber Science, 39(1): 146-158.
-Jafari Mofidabadi, A. 2008. Propagation of Populus caspica through mature ovary. J. of genetic improvement of forests and rangelands plant species, 29: 13-21.
-Jafari Mofidabadi, A. and Shahrzad, S. 2015. Asexual reproduction of hybrid poplar "Mofid" (Populus euphratica Oliv. X P.alba L.) using tissue culture. J. of Wood & Forest Science and Technology, 22 (3): 127-141.
-Jafari Mofidabadi, A., Modir-Rahmeti, A., Tavesoli, A., Kazemi, F., Kelagari, M. and Asadi, F. 2009. Application of embryo rescue (ovary, ovule-embryo culture) in interspecific poplar hybridization. J. of Pejohesh and Sazendegi, 43: 38-41.
-Kenechi, N.O., Linus, C. and Kayode, A., 2016. Utilization of Rice Husk as Reinforcement in Plastic Composites Fabrication- A Review. American Journal of Materials Synthesis and Processing, 1(3): 32-36.
-Klyosov, A.A., 2007. Wood‐Plastic Composites.John Wiley & Sons, Inc., Hoboken, New Jersey. 698p.
-Kutz, M., 2017. Applied Plastics Engineering Handbook. Processing, Materials, and Applications (2nd ed.). William Andrew Publishing, Norwich. 784p.
-Lomelí-Ramírez, M.G., Kestur, S.G., Manríquez-González, R., Iwakiri, S., Muniz, G.B. and Flores-Sahagun, T.S., 2014. Bio-composites of cassava starch-green coconut fiber: Part II-Structure and properties. Carbohydrate Polymers 102, 576-583.
-Miri, S.M., Ghasemian, A., Resalati, H. and Zeinaly, F. 2016. Investigation on Producing Bleachable kraft Pulp from Populus deltoids. J. of Wood & Forest Science and Technology, 23(1): 133-148.
-Mirmehdi, S.M., Zeinaly, F. and Dabbagh, F., 2014.Date palm wood flour as filler of linear low-density polyethylene. Composites: Part B, 56, 137-141.
-Nourbakhsh, A., Ashori, A. and Kazemi Tabrizi, A., 2014. Characterization and biodegradability of polypropylene composites using agricultural residues and waste fish. Composites: Part B, 56, 279-283.
-Stepto, R.F.T., 2003. The processing of starch as a thermoplastic.Macromol.Symp. 201, 203-212.
-Wilpiszewska, K. and Spychai, T., 2006.Heat plasticisation of starch by extrusion in the presence of plasticizers. International Polymer Science and Technology, 33(10): 53-58.
Iranian Journal of Wood and Paper Science Research
Volume 36, Issue 3 - Serial Number 76
August 2021
Pages 231-242
Files
History
  • Receive Date: 02 April 2021
  • Revise Date: 26 May 2021
  • Accept Date: 19 June 2021
Share
How to cite
Statistics