REFERENCES
- Corbiere-Nicollier, T., Gfeller, L.B., Lundquist, L., Leterrier, Y, Manson, J.A. E. and Jolliet, O. (2001), “Life Cycle Assessment of Biofibres Replacing Glass Fibres as Reinforcement in Plastics,” Resource Conservation and Recycling, 33, pp 267–287.
- Joshi, S.V., Drzal, L.T., Mohanty, A.K., and Arora, S. (2004), “Are Natural Fiber Composites Environmentally Superior to Glass Fiber Reinforced Composites?” Composites Part A: Applied Science and Manufacturing, 35, pp 371–376.
- Saira, T., Munawar, M.A., and Khan, S. (2007), “Natural Fiber–Reinforced Polymer Composite,” Proceedings of the Pakistan Academy of Sciences, 44(2), pp 129–144.
- Bruijn, J.C. M. D. (2000), “Natural Fibre Mat Thermoplastic Products from a Processor's Point of View,” Applied Composite Materials, 7, pp 415–420.
- Oksman, K. (2000), “Mechanical Properties of Natural Fibre Mat Reinforced Thermoplastic,” Applied Composite Materials, 7, pp 403–414.
- Wambua, P., Ivens, J., and Verpoest, I. (2003), “Natural Fibres: Can They Replace Glass in Fibre Reinforced Plastics?” Composites Science and Technology, 63(9), pp 1259–1264.
- Yousif, B.F. and Ku, H. (2012), “Suitability of Using Coir Fiber/Polymeric Composite for the Design of liquid Storage Tanks,” Materials & Design, 36, pp 847–853.
- El-Tayeb, N.S. M., Yousif, B.F., and Yap, T.C. (2006), “Tribological Studies of Polyester Reinforced with CSM 450-R-Glass Fiber Sliding against Smooth Stainless Steel Counterface,” Wear, 261, pp 443–452.
- Medalia, A.I. (1980), “On Structure Property Relations of Rubber,” Proc. Int. Conf., Kharagpuur, India, p 13.
- Yousif, B.F., Umar, N., and Wong, K.J. (2010), “Three-Body Abrasion on Wear and Frictional Performance of Treated Betelnut Fibre Reinforced Epoxy (T-BFRE) Composite,” Materials & Design, 31, pp 4514–4521.
- Amuzu, J.K. A., Briscoe, B.J., and Tabor, D. (1977), “Friction and Shear Strength of Polymers,” ASLE Transactions, pp 354–358.
- Hashmi, S.A. R., Dwivedi, U.K., Naik, A., and Chand, N. (2002), “Effect of Chemical Treatments on Abrasive Wear Behaviour of PP Based Lining Materials,” Metals Materials and Processes, 14, pp 235–240.
- Chand, N., Naik, A., and Neogi, S. (2000), “Three-Body Abrasive Wear of Short Glass Fibre Polyester Composite,” Wear, 242, pp 38–46.
- Yousif, B.F. and El-Tayeb, N.S. M. (2008), “High-Stress Three-Body Abrasive Wear of Treated and Untreated Oil Palm Fiber Reinforced Polyester Composite,” Proceedings of the Institution of Mechanical Engineers - Part J: Journal of Engineering Tribology, 222(5), pp 637–646.
- Yousif, B.F. and El-Tayeb N.S. M. (2007), “The Effect of Oil Palm Fibres as Reinforcement on Tribological Performance of Polyester Composite,” Surface Review and Letters, 14(6), pp 1095–1102.
- Rana, A.K., Mitra, B.C., and Banerjee, A.N. (1999), “Short Jute Fibre–Reinforced Polypropylene Composite: Dynamic Mechanical Study,” Journal of Applied Polymer Science, 71, pp 531–539.
- El-Tayeb, N.S. M. (2009), “Two-Body Abrasive Behaviour of Untreated SC and R-G Fibres Polyester Composites,” Wear, 266, pp 220–232.
- Hashmi, S.A. R., Dwivedi, U.K., and Chand, N. (2007), “Graphite Modified Cotton Fibre Reinforced Polyester Composites under Sliding Wear Conditions,” Wear, 262, pp 1426–1432.
- Singh, N., Yousif, B.F., and Rilling, D. (2011), “Tribological Characteristics of Sustainable Fiber-Reinforced Thermoplastic Composites under Wet Adhesive Wear,” Tribology Transactions, 54(5), pp 736–748.
- Tong, J., Ma, Y., Chen, D., Sun, J., and Ren, L. (2005), “Effects of Vascular Fiber Content on Abrasive Wear of Bamboo,” Wear, 259, pp 37–46.
- Chand, N. and Dwivedi, U.K. (2007), “High Stress Abrasive Study on Bamboo,” Journal of Materials Processing Technology, 183, pp 155–159.
- Chand, N., Dwivedi, U.K., and Acharya, S.K. (2007), “Anisotropic Abrasive Wear Behaviour of Bamboo (Dentrocalamus strictus),” Wear, 262, pp 1031–1037.
- Basavarajappa, S., Yadav, S.M., Kumar, S., Arun, K.V., and Narendranath, S. (2011), ”Abrasive Wear Behavior of Granite-Filled Glass–Epoxy Composites by SiC Particles Using Statistical Analysis,” Tribology Transactions, 50(5), pp 516–524.
- Padhi, P.K. and Satapathy, A. (2013), “Analysis of Sliding Wear Characteristics of BFS Filled Composites Using an Experimental Design Approach Integrated with ANN,” Tribology Transactions, 56(5), pp 789–796.
- Shipway, P.H. and Ngao, N.K. (2003), “Microscale Abrasive Wear of Polymeric Materials,” Wear, 255(1–6), pp 742–750.
- Chand, N., Naik, A., and Neogi, S. (2000), “Three-Body Abrasive Wear of Short Glass Fibre Polyester Composite,” Wear, 242(1–2), pp 38–46.
- Mohanty, J.R., Das, S.N., Das, H.C., and Swain, S.K. (2013), “Effective Mechanical Properties of Polyvinyl Alcohol Biocomposites with Reinforcement of Date Palm Leaf Fibers,” Polymer Composites, 34(6), pp 959–966.
- Sbiai, A., Maazouz, A., Fleury, E., Sautereau, A., and Kaddamu, H. (2010), “Short Date Palm Tree Fibers/Polyepoxy Composites Prepared Using RTM Process: Effect of Tempo-Mediated Oxidation of the Fibers,” BioResources, 5(2), pp 672–689.
- Mahdavi, S., Kermanian, H., and Varshoei, A. (2010), “Comparision of Mechanical Properties of Date Palm Fiber–Polyethylene Composite,” BioResources, 5(4), pp 2391–2403.
- Rao, K.M. M. and Rao, K.M. (2007), “Extraction and Tensile Properties of Natural Fibers: Vakka, Date and Bamboo,” Composite Structures, 77, pp 288–295.
- Alawar, A., Hamid, M.A., and Kaabi, A. (2009), “Characterization of Treated Date Palm Tree Fiber as Composite Reinforcement,” Composites: Part B: Engineering, 40, pp 601–606.
- Al-Sulaiman, F.A. (2003), “Date Palm Fibre Reinforced Composite as a New Insulating Material,” International Journal of Energy Research, 27, pp 1293–1297.
- Blanchett, T.A. and Kennedy, F.E. (1989), “The Development of Transfer Films in Ultra High Molecular Weight Polyethylene/Stainless Steel Oscillatory Sliding,” Tribology Transactions, 32, pp 371–379.
- Bijwe, J., Indumathi, J., and Ghose, A.K. (2002), “Influence of Weave of Glass Fabric on the Oscillating Wear Performance of Polyetherimide (PEI) Composites,” Wear, 253, pp 803–812.