The Physical, Chemical Properties of untreated and chemically treated Palmyra Palm Leaf Fibres

[1] Aathijeyamani, A., M. Thiruchitrambalam, U. Natarjan, and B. Pazhanivel, “Effect of moisture absorption on the mechanical properties of randomly oriented natural fibres/polyester hybrid compositeâ€, Material Science and Engineering: A 517: 344-533, 2009.

[2] Acharya A.K., P. Mishra P, S. K. Mehar, and V. Dikshit, “Weathering Behavior of bagasse fibre reinforced polymer compositeâ€, Journal of Reinforced Plastics and Composites 27: 1839-1846, 2008.

[3] Agrawal R., N. S. Saxena, K. B. Sharma, S. Thomas, M. S. Sreekala, “Activation energy and crystallization kinetics of untreated and treated oil palm fibre reinforced phenol formaldehyde compositesâ€, Material Science and Engineering: A 277: 77-82, 2000.

[4] Ahmad, A., M. H. Ahmad, and K. Al-Kaabi, “Characterization of treated date palm tree fibre as composite reinforcementâ€, Composites: Part B, 40: 601-606, 2009.

[5] Bledzki A.K., and J.Gassan J, “Composites reinforced with cellulose based fibresâ€, Progress in Polymer Science 24: 221-274, 1999.

[6] Chanakan A., C. Sarocha C. H. Jongjit, and K. Joseph K, “Materials and mechanical properties of pretreated coir-based green compositesâ€, Composites: Part B 40:633–637, 2009.

[7] Ganan P., and I. Mondragon, “Effect of Fibre treatments on mechanical behavior of short fique fibre-reinforced Polyacetal Compositesâ€, Journal of Composite Materials 39: 633-645, 2005.

[8] Jahn A., M. W. Schrooder, M. Futing, K. Schenzel, W. Diepenbrock, “Characterization of alkali treated flax fibres by means of FT Raman spectroscopy and environmental scanning electron microscopyâ€, Spectrochimica Acta A: Molecular and Biomolecular Spectroscopy 58: 2271-2279, 2002.

[9] Jawid M., H. P. S. Abdul Khalil, and A. Abu Bakar, “Mechanical performance of oil palm empty fruit bunches/jute fibres reinforced epoxy hybrid compositesâ€, Material Science and Engineering A 527:7944–7949, 2010.

[10] John M.J, F. Bejoy, K. T. Varghese, and S. Thomas, “Effect of chemical modification on properties of hybrid fibre biocompositesâ€, Composites: Part A 39:352-363, 2008.

[11] John, M J., and S. Thomas, “BioFibres and Biocomposites: A reviewâ€, Carbohydrate Polymer 71: 343 -364, 2008.

[12] Kabir M. M., H. Wang, K. T. Lau, and F. Cardona, “Chemical treatments on plant based natural fibre reinforced polymer composites: An overviewâ€, Composites: Part B 43:2883-2892, 2012.

[13] Li X., G. T. Lope, and S. Panigrahi, “Chemical Treatments of Natural Fibre for Use in Natural Fibre-Reinforced Composites: A Reviewâ€, Journal of Polymers and Environment 15:25–33, 2007.

[14] Manikandan Nair, K.C., S. Thomas, and G. Groeninck, “Thermal and dynamic mechanical analysis of polystyrene composites reinforced with short sisal fibresâ€, Composite Science and Technology 61:2519–2529, 2001.

[15] Mansour, R., O. Hocine, A. Imad, and B. Noureddine, “Effect of chemical treatment on the flexural properties of natural fibre-polyetser compositesâ€, Engineering Procedia 10:2092-2097, 2011.

[16] Mylsamy, K., and I. Rajendaran, “Investigation on the physic-chemical and Mechanical properties of raw and alkali treated agave Americana fibreâ€, Journal of Reinforced Plastics and Composites 29:2925-2935, 2010.

[17] Paul S.A., K. Joseph, G. Mathew, L. A. Pothen, S. Thomas, “Influence of polarity parameters on the mechanical properties of composites from polypropylene fibre and short banana fibre. Compositesâ€, Part A, 41: 1380-1387, 2010.

[18] Paul, W., I. Jan, and V. Ignaas, “Natural fibres: can they replace glass in fibre reinforced plastics?â€, Composite Science and Technology 63:1259–1264, 2003.

[19] Rosana, M., V. Francisco, K. Sigbritt K, and R. G. Amparo, “Improved thermo-mechanical properties by the addition of natural fibres in starch-based sustainable bio compositesâ€, Composites: Part A 42: 30–40, 2011.

[20] Sangthong S., T. Pongprayoon T, and N.Yanumet, “Mechanical Property improvement of unsaturated polyester composites reinforced with admicellar treated sisal fibresâ€, Composites: Part A 40: 687-694, 2009.

[21] Sgriccia, N., M. C. Hawley, and M. Misra, “Characterization of natural fibre surfaces and natural fibre compositesâ€, Composites: Part A 39: 1632-1637, 2008.

[22] SreeKumar, P A., S. Thomas, J.M. Sieter, K. Joseph, G. Unnikrishnan, and S. Thomas, “Effect of fibre surface modification on the mechanical and water absorption characteristics of sisal/polyester composites fabricated by resin transfer moldingâ€, Composites: Part A 40:1777-1784, 2009.

[23] Sreenivasan V.S., S. Somasundaram, D. Ravindran, V. Manikandan V, R. Narayanasamy, “Microstructural, physico-chemical and mechanical characterization of Sansevieria cylindrica fibres – An exploratory investigationâ€, Materials and Design 32: 453-461, 2011.

[24] Susheel K., B. S. Kaith, and K. Inderjeeth, “Pretreatments of Natural fibres and their applications as reinforcing material in polymer composites –A reviewâ€, Journal of Polymer Engineering and Science 49:1253-1272, 2009.

[25] Symington, M C., W. M. Banks, and O. D. West, “Tensile testing of cellulose based natural fibres for structural composite applicationsâ€, Journal of Composite Materials 43: 1083-1108, 2009.

[26] Thiruchitrambalam, M., and D. Shanmugam, “Influence of pre-treatments on the mechanical properties of Palmyra palm leaf stalk fibre polyester compositesâ€, Journal of Reinforced Plastics and Composites 31: 400–1414, 2012.

[27] Threepopnatkul, P., N. Kaerkitcha, and N. Athipongarporn, “Effect of surface treatment on performance of pineapple leaf fibre–polycarbonate compositesâ€, Composites: Part B 40: 628-632, 2009.