Journal of Engineering and Applied Sciences
Year:
2016
Volume:
11
Issue:
11
Page No.
2485 - 2489
References
Bezazi, A., A. Belaadi, M. Bourchak, F. Scarpa and K. Boba, 2014. Novel extraction techniques, chemical and mechanical characterisation of Agave Americana L natural fibres. Compos. Part B. Eng., 66: 194-203.
Direct Link | Biagiotti, J., D. Puglia, L. Torre, J.M. Kenny and A. Arbelaiz
et al., 2004. A systematic investigation on the influence of the chemical treatment of natural fibers on the properties of their polymer matrix composites. Polym. Compos., 25: 470-479.
CrossRef | Direct Link | Fowler, P.A., J.M. Hughes and R.M. Elias, 2006. Biocomposites: Technology, environmental credentials and market forces. J. Sci. Food Agric., 86: 1781-1789.
CrossRef | Direct Link | Gu, H., 2009. Tensile behaviours of the coir fibre and related composites after NaOH treatment. Mater. Des., 30: 3931-3934.
CrossRef | Haameem, M.J.A., M.A. Majid, M. Haslan, M. Afendi and E.A. Helmi
et al., 2014. Effects of alkaline treatments on the tensile strength of napier grass fibres. Appl. Mech. Mater., 695: 340-343.
CrossRef | Direct Link | Indran, S., R.E. Raj and V.S. Sreenivasan, 2014. Characterization of new natural cellulosic fiber from Cissus quadrangularis root. Carbohyd. Polym., 110: 423-429.
Direct Link | Liu, W., A.K. Mohanty, L.T. Drzal, P. Askel and M. Misra, 2004. Effects of alkali treatment on the structure, morphology and thermal properties of native grass fibers as reinforcements for polymer matrix composites. J. Mater. Sci., 39: 1051-1054.
CrossRef | Direct Link | Liu, Z., S.Z. Erhan, D.E. Akin and F.E. Barton, 2006. Green composites from renewable resources: Preparation of epoxidized soybean oil and flax fiber composites. J. Agric. Food Chem., 54: 2134-2137.
CrossRef | Direct Link | Mwaikambo, L.Y. and M.P. Ansell, 2002. Chemical modification of hemp, sisal, jute, and kapok fibers by alkalization. J. Appl. Polym. Sci., 84: 2222-2234.
CrossRef | Direct Link | Paiva, M.C., I. Ammar, A.R. Campos, R.B. Cheikh and A.M. Cunha, 2007. Alfa fibres: Mechanical, morphological and interfacial characterization. Compos. Sci. Technol., 67: 1132-1138.
Direct Link | Rao, K.M.M., K.M. Rao, A.V.R. Prasud, 2010. Fabrication and testing of natural fibre composites: Vakka, sisal, bamboo and banana. Mater. Des., 31: 508-513.
CrossRef | Ray, D., B.K. Sarkar, R.K. Basak and A.K. Rana, 2002. Study of the thermal behavior of alkali-treated jute fibers. J. Applied Polym. Sci., 85: 2594-2599.
CrossRef | Direct Link | Ray, D., B.K. Sarkar, A.K. Rana and N.R. Bose, 2001. The mechanical properties of vinylester resin matrix composites reinforced with alkali-treated jute fibres. Compos. Part A. Appl. Sci. Manuf., 32: 119-127.
Direct Link | Reddy, K.O., C.U. Maheswari, D.J.P. Reddy and A.V. Rajulu, 2009. Thermal properties of Napier grass fibers. Mater. Lett., 63: 2390-2392.
Direct Link | Reddy, K.O., C.U. Maheswari, M. Shukla and A.V. Rajulu, 2012. Chemical composition and structural characterization of Napier grass fibers. Mater. Lett., 67: 35-38.
Direct Link | Ridzuan, M.J.M., A. Majid, M. Afendi, K.S.N. Aqmariah and M.B.M. Nuriman, 2015. Effects of alkaline concentrations on the tensile properties of Napier grass fibre. Appl. Mech. Mater., 786: 23-27.
Direct Link | Ridzuan, M.J.M., M.A. Majid, M. Afendi, K. Azduwin and S.A. Kanafiah
et al., 2015. The effects of the alkaline treatment's soaking exposure on the tensile strength of napier fibre. Procedia Manuf., 2: 353-358.
CrossRef | Direct Link | Rosa, I.M.D., J.M. Kenny, D. Puglia, C. Santulli and F. Sarasini, 2010. Morphological, thermal and mechanical characterization of okra (Abelmoschus esculentus) fibres as potential reinforcement in polymer composites. Compos. Sci. Technol., 70: 116-122.
Direct Link | Sgriccia, N., M.C. Hawley and M. Misra, 2008. Characterization of natural fiber surfaces and natural fiber composites. Compos. Part A. Appl. Sci. Manuf., 39: 1632-1637.
Direct Link | Troedec, L.M., D. Sedan, C. Peyratout, J.P. Bonnet and A. Smith
et al., 2008. Influence of various chemical treatments on the composition and structure of hemp fibres. Compos. Part A. Appl. Sci. Manuf., 39: 514-522.
Direct Link | Yang, H., R. Yan, H. Chen, D.H. Lee and C. Zheng, 2007. Characteristics of hemicellulose, cellulose and lignin pyrolysis. Fuel, 86: 1781-1788.
CrossRef | Zuluaga, R., J.L. Putaux, J. Cruz, J. Velez and I. Mondragon
et al., 2009. Cellulose microfibrils from banana rachis: Effect of alkaline treatments on structural and morphological features. Carbohydr. Polym., 76: 51-59.
Direct Link |