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INFLUENCE OF ALKALINE TREATMENTS ON TENSILE PROPERTIES OF ALPACA FABRIC REINFORCED EPOXY COMPOSITES

Menderes Koyuncu

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b62/s26.028View metrics

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Title
INFLUENCE OF ALKALINE TREATMENTS ON TENSILE PROPERTIES OF ALPACA FABRIC REINFORCED EPOXY COMPOSITES
Authors
Menderes Koyuncu
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on NANO, BIO AND GREEN TECHNOLOGIES FOR A SUSTAINABLE FUTURE
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-21-6
Language
en
Publication type
Conference Paper
References32
  1. N. Lu, S. Oza., A comparative study of the mechanical properties of hemp fiber with virgin and recycled high density polyethylene matrix. Compos Part B Eng, 45 (1) (2013), pp. 1651–1656.

  2. M.A. Norul Izani, M.T. Paridah, U.M.K. Anwar, M.Y. Mohd Nor, P.S. H’ng. Effects of fiber treatment on morphology, tensile and thermogravimetric analysis of oil palm empty fruit bunches fibers. Compos Part B Eng, 45 (1) (2013), pp. 1251–1257.

  3. B.H. Lee, H.J. Kim, W.R. Yu. Fabrication of long and discontinuous natural fiber reinforced polypropylene biocomposites and their mechanical properties. Fibers Polym, 10 (1) (2009), pp. 83–90.

  4. N. Lu, S. Oza., Thermal stability and thermo-mechanical properties of hemp-high density polyethylene composites: effect of two different chemical modifications. Compos Part B Eng, 44 (1) (2013), pp. 484–490

  5. H. Alamri, I.M. Low, Z.Alothman.,Mechanical, thermal and microstructuralcharacteristics of cellulose fibre reinforced epoxy/organoclay nanocomposites. Compos Part B Eng, 43 (7) (2012), pp. 2762–2771

  6. D. Bachtiar, S.M. Sapuan, M.M. Hamdan., The effec t of alkaline treatment on tensile properties of sugar palm fibre reinforced epoxy composi tes. Materials and Desing, 29 (2008)9 p.p 1285-1290.

  7. P.J. Herrera -Franca, Valadez - Gonzales., A study of the mechanical properties of short natural-fiber reinforced composites. Compos. 36(8), 2005, pp. 597-608.

  8. D. Bachtiar, S.M. Sapuan, M.M. Hamdan; The effect of alkaline treatment on tensile properties of sugar palm fibre reinforced epoxy composites; Materials Design, 29 (2008), pp. 1285-1290.

  9. K. Sever, M. Sarikanat, Y. Seki, G. Erkan, U.H. Erdoğan, S. Erden; Surface treatments of jute fabric: The influence of surface characteristics on jute fabrics and mechanical properties of jute/polyester composites; Industrial Crops and Products; 35 (2012), pp. 22-30. Section Green Buildings Technologies and Materials

  10. V. Weyenberg, TC. Truong, B. Vangrimde, I. Verpoest; Improving the properties of UD flax fibre reinforced composites by appling an alkaline fibre treatment; Compos A; Appl.Sci. Manuf. 37 (2006), pp. 1368-1376.

  11. A. Valadez-Gonzalez, J.M. Cervantes-Uc, R. Olayo, P.J. Herrera- Franco; Effect of fiber surface on the fiber-matrix bond strength of natural fiber reinforced composites; Compos.Part B; 30(1999), pp. 309-320.

  12. M.Z. Rong, M.Q. Zhang, Y. Liu, GC. Yang, HM. Zeng; The effect of fiber treatment on the mechanical properties of an directional sisal reinforced epoxy composities; Compos.Sci.Tech. 61( 2001), pp. 1437-1447.

  13. L. Mwaikambo, M. Ansell., Chemical modification of Hemp, sisal, jute and kapok fibres by alkalisation. j Appl Polym Sci. 84 (2002), 2222-2234.

  14. A. Mukherjee, PK. Ganguly, D. Sur., Structural mechanics of jute: the effects of hemicellulose or lignin removal. JText Inst. 84 (1993), 348-353.

  15. K. Obi Reddy, C. Uma Maheswari, J. Mukul Shukla, I. Song, A. Varada Rajulu, Tensile and structural characterization of alkali treated Borassus fruit fine fibers. Composites: Part B, 44 (2013) 433-438.

  16. YS. Wang, WM. Koo, HD. Kim, Preparation and properties of new regenerated cellulose fibers. Text Rese J. 73 (2003), 998-1004.

  17. N. Lu, S. Oza., A comparative study of the mechanical properties of hemp fiber with virgin and recycled high density polyethylene matrix. Compos Part B Eng, 45 (1) (2013), pp. 1651–1656.

  18. M.A. Norul Izani, M.T. Paridah, U.M.K. Anwar, M.Y. Mohd Nor, P.S. H’ng. Effects of fiber treatment on morphology, tensile and thermogravimetric analysis of oil palm empty fruit bunches fibers. Compos Part B Eng, 45 (1) (2013), pp. 1251–1257.

  19. B.H. Lee, H.J. Kim, W.R. Yu. Fabrication of long and discontinuous natural fiber reinforced polypropylene biocomposites and their mechanical properties. Fibers Polym, 10 (1) (2009), pp. 83–90.

  20. N. Lu, S. Oza., Thermal stability and thermo-mechanical properties of hemp-high density polyethylene composites: effect of two different chemical modifications. Compos Part B Eng, 44 (1) (2013), pp. 484–490

  21. H. Alamri, I.M. Low, Z.Alothman.,Mechanical, thermal and microstructuralcharacteristics of cellulose fibre reinforced epoxy/organoclay nanocomposites. Compos Part B Eng, 43 (7) (2012), pp. 2762–2771

  22. D. Bachtiar, S.M. Sapuan, M.M. Hamdan., The effec t of alkaline treatment on tensile properties of sugar palm fibre reinforced epoxy composi tes. Materials and Desing, 29 (2008)9 p.p 1285-1290.

  23. P.J. Herrera -Franca, Valadez - Gonzales., A study of the mechanical properties of short natural-fiber reinforced composites. Compos. 36(8), 2005, pp. 597-608.

  24. D. Bachtiar, S.M. Sapuan, M.M. Hamdan; The effect of alkaline treatment on tensile properties of sugar palm fibre reinforced epoxy composites; Materials Design, 29 (2008), pp. 1285-1290.

  25. K. Sever, M. Sarikanat, Y. Seki, G. Erkan, U.H. Erdoğan, S. Erden; Surface treatments of jute fabric: The influence of surface characteristics on jute fabrics and mechanical properties of jute/polyester composites; Industrial Crops and Products; 35 (2012), pp. 22-30. Section Green Buildings Technologies and Materials

  26. V. Weyenberg, TC. Truong, B. Vangrimde, I. Verpoest; Improving the properties of UD flax fibre reinforced composites by appling an alkaline fibre treatment; Compos A; Appl.Sci. Manuf. 37 (2006), pp. 1368-1376.

  27. A. Valadez-Gonzalez, J.M. Cervantes-Uc, R. Olayo, P.J. Herrera- Franco; Effect of fiber surface on the fiber-matrix bond strength of natural fiber reinforced composites; Compos.Part B; 30(1999), pp. 309-320.

  28. M.Z. Rong, M.Q. Zhang, Y. Liu, GC. Yang, HM. Zeng; The effect of fiber treatment on the mechanical properties of an directional sisal reinforced epoxy composities; Compos.Sci.Tech. 61( 2001), pp. 1437-1447.

  29. L. Mwaikambo, M. Ansell., Chemical modification of Hemp, sisal, jute and kapok fibres by alkalisation. j Appl Polym Sci. 84 (2002), 2222-2234.

  30. A. Mukherjee, PK. Ganguly, D. Sur., Structural mechanics of jute: the effects of hemicellulose or lignin removal. JText Inst. 84 (1993), 348-353.

  31. K. Obi Reddy, C. Uma Maheswari, J. Mukul Shukla, I. Song, A. Varada Rajulu, Tensile and structural characterization of alkali treated Borassus fruit fine fibers. Composites: Part B, 44 (2013) 433-438.

  32. YS. Wang, WM. Koo, HD. Kim, Preparation and properties of new regenerated cellulose fibers. Text Rese J. 73 (2003), 998-1004.

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