STUDY OF MECHANICAL PROPERTIES OF COCONUT-SPATHE FIBERS AND KENAF BAST FIBER REINFORCED EPOXY POLYMER MATRIX COMPOSITES

Authors

  • VijayaKumar S Department of Mechanical Engineering, University College of Engineering, Villupuram, 605 103, India
  • Ashwin Vishwanath K Department of Mechanical Engineering, University College of Engineering, Villupuram, 605 103, India
  • Nilavarasan T Department of Mechanical Engineering, University College of Engineering, Villupuram, 605 103, India
  • Prabhakar S Department of Mechanical Engineering, University College of Engineering, Villupuram, 605 103, India
  • Usharani R Department of Mechanical Engineering, University College of Engineering, Villupuram, 605 103, India

Keywords:

Epoxy, Kenaf, Coconut Spathe, Alkali Treatment , Flexural, Impact Strength

Abstract

The interest in natural fiber reinforced polymer materials has multiple drivers such as, growing concern for the environment, possible cost competitiveness, and concerns around the sustainability of materials production. Natural fibers show significant potential as environmentally friendly alternatives to reinforcements such as glass fibers.  Many natural fibers have been identified which have some appropriate mechanical properties for structural purposes, being of low density, and high specific strength and stiffness. Kenaf and Coconut-spathe fibers are examples of such fibers. Epoxy polymer matrix is much suitable for reinforcement of fibers due to good adhesiveness and mechanical properties. This paper mainly focuses such of mechanical properties like tensile, flexural, impact strengths of these fibers reinforced in epoxy under various proportions. The fabrication method was by “hand layup process” and the fibers were alkali treated; chopped and reinforced thoroughly in definite weight proportions. The weight proportion of the polymer matrix is maintained whereas the proportions of the fibers are altered and analyzed.

Downloads

Download data is not yet available.

References

Akil H M, Ishak Z A M and Abu Bakar A (2011), “Kenaf fiber reinforced composites: A review”.

Hyun-Joong Kim and John R Dorgan (2012), “Bio-composites of kenaf fibers in polylactide: Role of improved interfacial adhesion in the carding process”.

El-Shekeil Y A, Sapuan S M, Abdan K and Zainudin E S (2012), “Influence of fiber content on the mechanical and thermal properties of Kenaf fiber reinforced thermoplastic polyurethane composites”.

Shinji Ochi’s (2007), “Mechanical properties of kenaf fibers and kenaf/PLA composites”.

Yousif B F and Ming K C (2012), “Flexural properties of treated and untreated kenaf/epoxy composites”.

Sharifah H Aziz and Martin P Ansell (2004), “The effect of alkalization and fibre alignment on the mechanical and thermal properties of kenaf and hemp bast fibre composites”.

Sudsiri and Hemsri Kasia Grieco (2012), “Wheat gluten composites reinforced with coconut fiber”.

Mohammad S Islam, Jeffrey S Church and Menghe Miao (2011), “Effect of removing polypropylene fibre surface finishes on mechanical performance of kenaf/polypropylene composites”.

Rassmann S, Reid R G and Paskaramoorthy R (2010), “Effects of processing conditions on the mechanical and water absorption properties of resin transfer moulded kenaf fibre reinforced polyester composite laminates”.

Davoodi M M, Sapuan S M, Ahmad D, Aidy Ali and Khalina A (2012), “Mechanical properties of hybrid kenaf/glass reinforced epoxy composite for passenger car bumper beam”.

Downloads

Published

2013-03-01

Issue

Section

Articles

How to Cite

[1]
“STUDY OF MECHANICAL PROPERTIES OF COCONUT-SPATHE FIBERS AND KENAF BAST FIBER REINFORCED EPOXY POLYMER MATRIX COMPOSITES”, JME, vol. 8, no. 1, pp. 043–047, Mar. 2013, Accessed: Dec. 23, 2024. [Online]. Available: https://smenec.org/index.php/1/article/view/339

Similar Articles

91-100 of 205

You may also start an advanced similarity search for this article.