References
- Sgriccia N, Hawley MC, Misra M. Characterization of natural fiber surfaces and natural fiber composites. Compos Appl Sci Manuf. 2008;39(10):1632–1637.
- Faruk O, Bledzki AK, Fink HP, et al. Bio-composites reinforced with natural fibers: 2000– 2010. Prog Polym Sci. 2012;37(11):1552–1596.
- Lei Y, Wu Q, Yao F, et al. Preparation and properties of recycled HDPE/natural fiber composites. Compos Appl Sci Manuf. 2007;38(7):1664–1674.
- Mohanty AK, Drzal LT, Misra M. Novel hybrid coupling agent as an adhesion pro- moter in natural fiber reinforced powder polypropylene composites. J Mater Sci Lett. 2002;21(23):1885–1888.
- Koronis G, Silva A, Fontul M. Green composites: a review of adequate materials for automotive applications. Compos B Eng. 2013;44(1):120–127.
- Alves C, Silva AJ, Reis LG, et al. Ecodesign of auto- motive components making use of natural jute fiber composites. J Clean Prod. 2010;18(4):313–327.
- Brosius D. Natural fiber composites slowly take root. Compos Technol. 2006;12(1).
- Faruk O, Bledzki AK, Fink HP, et al. Progress report on natural fiber reinforced composites. Macromol Mater Eng. 2014;299(1):9–26.
- Hsiao SW, Kikuchi N. Numerical analysis and optimal design of composite ther moforming process. Comput Methods Appl Mech Eng. 1999;177(1–2):1–34.
- George J, Sreekala MS, Thomas S. A review on interface modification and characterization of natural fiber reinforced plastic composites. Polymer Eng Sci. 2001;41(9):1471–1485.
- Du Y, Wu T, Yan N, et al. Fabrication and characterization of fully biodegradable natural fiber-reinforced poly (lactic acid) composites. Compos B Eng. 2014;56:717–723.
- Thunwall M, Boldizar A, Rigdahl M, et al. Processing and properties of mineral‐interfaced cellulose fibre composites. J Appl Polym Sci. 2008;107(2):918–929.
- Sreekala MS, Thomas S, Neelakantan NR. Utilization of short oil palm empty fruit bunch fiber as a reinforcement in phenol-formaldehyde resins: studies on me- chanical properties. J Polym Eng. 1997;16:265–294.
- Sreekala MS, Kumaran MG, Thomas S. Oil palm fibers: morphology, chemical composition, surface modification, and mechanical properties. J Appl Polym Sci. 1997;66(5):821–835.
- Jacob M, Thomas S, Varughese KT. Mechanical properties of sisal/oil palm hybrid fiber reinforced natural rubber composites. Compos Sci Technol. 2004;64(7):955–965.
- Haque MM, Hasan M, Islam MS, et al. Physico-mechanical properties of chemi- cally treated palm and coir fiber reinforced polypropylene composites. Bioresour Technol. 2009;100(20):4903–4906.
- Al-Oqla FM, Sapuan SM. Natural fiber reinforced polymer composites in industrial applications: feasibility of date palm fibers for sustainable automotive industry. J Clean Prod. 2014;66:347–354.
- Ashori A. Wood–plastic composites as promising green-composites for automotive industries!. Bioresour Technol. 2008;99(11):4661–4667.
- Campinhos E. Sustainable plantations of high-yield shape Eucalyptus trees for production of fiber: the Aracruz case. N For. 1999;17(1–3):129–143.
- Tonoli GHD, Savastano H, Fuente E, et al. Eucalyptus pulp fibres as alternative reinforcement to engineered cement-based composites. Ind Crops Prod. 2010;31(2):225–232.
- Chung DD. Dispersion of short fibers in cement. J Mater Civ Eng. 2005;17(4):379–383.
- Huntsman Advanced Material Datasheet. Araldite®LY 1564 SP/Aradur®2954. 2010.
- Biermann CJ. Handbook of pulping and papermaking. second ed. Oregon: Academic Press; 1996.
- Perrin J, Pouyet F, Chirat C, et al. Formation of carboxyl groups on cellulosic pulp: effect on alkali resistance. Bioresources. 2014;9(4):7299–7310.
- Ni Y. A fundamental study of chlorine dioxide bleaching of kraft pulp. Montreal, Canada: Department of Chemical Engineering, McGill University; 1992.
- Ek M, Gellerstedt G, Henriksson G. Pulp and paper chemistry and technology. Germany: Hubert and Co. GmbH and Co. Göthingen; 2009. p. p210–30.