The influence of compounding process on the properties of polypropylene-cellulosic fiber nanocomposite containing nanoclay particles.

Khodaparast, Sina; Jahan - Latibari, Ahmad; Rohnia, Mehran

doi:10.22092/ijwpr.2017.109585

Document Type : Research Paper

Authors

¹ M.Sc., Department of Wood Science and Paper Technology, Karaj Branch, Islamic Azad University, Karaj, Iran

² Professor, Department of Wood Science and Paper Technology, Karaj Branch, Islamic Azad University, Karaj, Iran,

³ Associate professor, Department of Wood Science and Paper Technology, Karaj Branch, Islamic Azad University, Karaj, Iran

https://doi.org/10.22092/ijwpr.2017.109585

Abstract

The effect of compounding process applying two methods of one and two step mixing on the properties of nanocomposite is investigated. Nanocomposites were produced using polypropylene, cellulosic fibers, MAPP and nanolay as reinforcement. 1.5 and 3% MAPP and 0,2, and 4% nanoclay were used as the variable factor and 20% fibers was used. Melt flow index was measured on compounds produced using one or two steps mixing. Either compounds were mixed with fibers and MAPP and then the test specimens were made and tested according to ASTM test procedures. The results revealed that the two steps mixing increased the mechanical properties. The melt flow index of one step mixing was lower and the melt flow index of initial mixing of polypropylene with nanoclay was very high and it was reduced after compounding with fibers and MAPP. The results revealed that at higher dosages of the nanoclay tensile and bending modulus of the composite increased and tensile strength and modulus of rupture decreased.

Keywords

Main Subjects

Composite wood products

References

-Ashori, A. and Nourbakhsh, A., 2010.Preparation and characterization of polypropylene/wood flour/nanoclay composites.European Journal of wood products DOI 10.1007/s00107-010-6488-9.

-American Society of Testing and Material, 2014. ASTM annual book of testing methods, no. 10. Philadelphia, PA., USA.

-Chowdhury, F.H., Hoosur, M.V. and Jeelani, S., 2006. Studies on the flexural and thermo mechanical properties of woven carbon/nanoclay-epoxy laminate. Material Science and Engineering A (421), 298-306.

-Danesh, M.A., ZiaeiTabari, H., Hossseinpourpia, R., Nazarnejhad, N. and Shams, M., 2012. Investigation of the morphological and thermal properties of waste newsprint/recycled polypropylene/nanoclay composite. Bioresources 7(1), 936-945

-Faruk, O. and Matuana, L., 2008. Nanoclay reinforced HDPE as a matrix for wood-plastic composites, Composites Science and technology 68, 2073-2077

-Han, G., Lei, Y., Wu, Q., Kojima, Y. and Suzuki. S., 2008. Bambo-Fiber filled hight density polyethylene composites: effect of coupling treatment and nanoclay J. Polym Environ 16:123-130.

-Moderramati, S., Minaei, M. and Jahan Latibari, A., 2012a. The influence of nanoclay on the performance of HDPE/wheat straw powder composite produced by two stage mixing. Iranian Journal of Wood and Paper Research, 27(4):635-645.

-Moderramati, S., Jahan Latibari, A., Nurbakhsh,A., Roohnia, M. and Minaei, M., 2012b. The impact of nanoclay on the performance of polypropylene/OCC fibers/nanoclay composite Iranian Journal of Wood and Paper Research, 27(2):373-385.

-Nourbakhsh, A., 2012. Comparing four lignocellulosic material in the properties of wood plastic/nanoclay composite. Iranian Journal of Wood and Paper Research, 27(2):235-255.

-Nourbakhsh, A., Ashori, A., Ziaei Tabari, H. and Rezaei, F., 2010. Mechanical and thermo-mechanical properties of wood-flour/polypropylene blends. Polym Bull. 65: 691-700.

-Nourbakhsh,A., Hossienzadeh, A.R., Jahan Latibari, A., Kargarfard, A. and Kokta, B., 2004a. Comparing the effect of lignocellulosic material at different levels of maleic anhydride polypropylene in fiber and wood four/plypropylene composite. Iranian Journal of Wood and Paper Research, 19(1):49-68.

-Olewnik, E., Garman, K. and Czerwinski, W,.2010. Thermal properties of new composites based on nanoclay polyethylene and polypropylene. Therm Anal Calorim. 101: 323- 329

-Wang, H., Zheng, C., Elkovitch, M., Lee, L.J. and Koelling, K.W., 2001. Processing and properties of polymeric nanocomposites, Polymer Engineering Science 41(11), 236-246pp.

-Wolcott, A., 2003.Characterization: fiber composites. Journal of Cellular plastics, Vol32, No5:449-460.

-Woohhams, R., Shiang, L. and Balatinez, J., 1991.Intensive mixing of wood fibers with thermo plastic for injection molded composites. Wood Plastic Composites Conference. madison, Wis.,U.S.A.

-Zhang. S.Y., Zhang, Y., Bousmina, M., Sain, M. and Choi, P., 2007. Effects fiber content and coupling agent content on selected properties of polyethylene/Wood fiber composites. Polymer Engineering and Science 47(10): 1678-1687.

Iranian Journal of Wood and Paper Science Research

The influence of compounding process on the properties of polypropylene-cellulosic fiber nanocomposite containing nanoclay particles.

References

References

Volume 32, Issue 2 - Serial Number 59
July 2017
Pages 287-299

The influence of compounding process on the properties of polypropylene-cellulosic fiber nanocomposite containing nanoclay particles.

References

References

Volume 32, Issue 2 - Serial Number 59July 2017Pages 287-299

Volume 32, Issue 2 - Serial Number 59
July 2017
Pages 287-299