WEAR RESISTANCE AND DIMENSIONAL ACCURACY OF DRILLED HOLES OF SHORT ROSELLE / SISAL FIBER HYBRID POLYESTER COMPOSITE

Authors

  • Athijayamani A Department of Mechanical Engineering, A. C. College of Engineering and Technology, Karaikudi, Tamilnadu, India
  • Thiruchitrambalam M Department of Mechanical Engineering, Dr.Mahalingam College of Engineering and Technology, Pollachi, Tamilnadu, India
  • Winowlin Jappes J T Department of Mechanical Engineering, Kalasalingam University, Krishnankoil, Tamilnadu, India

Keywords:

hybrid composites, Polymer-matrix composite, Wear resistance, Dimensional accuracy of drilled holes

Abstract

In the present work, the effect of fiber length and content on the wear resistance and dimensional accuracy of drilled holes of short roselle and sisal fiber polyester hybrid composite were investigated. The composite with 30 wt% & 150 mm showed a good wear resistance compared to the composite with 30 wt% & 100 mm at maximum wear test time of 12 min. But the weight loss of the hybrid composite with all the fiber content and length during wear test was almost in same level at all wear test time. The composite with 20 wt% & 15cm show better dimensional accuracy compared to other composites. The dimensional accuracy of all drilled holes of all the hybrid composite specimens with all fiber content and length during drill hole analysis was also almost in same level. From this study, it is identified that the wear resistance and drill hole profile of short roselle and sisal fiber hybrid polyester composite is mainly dependent upon the fiber content of roselle and sisal fibers than that of the fiber length.

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References

Sivasubramanian P, Winowlin Jappes J T, Alavudeen A (2007), “Fabrication and Analysis of Banana with Glass Fibre Composite Materials on Mechanical Properties”, Journal of Manufacturing Engineering, Vol.2 (4), pp 215-220.

Mohanty A K, Misra M, Hinrichsen G (2000), “Biofibres, Biodegradable Polymers and Biocomposites: An Overview”, Macromol Mater Eng, Vol. 276-277, pp 1–24.

Sherman L (1999), “Thermal, Morphological, and Electrical Characterization of Microwave Processed Natural Fiber Composites”, Plast. Technol., Vol. 45 (10), pp 62–68.

Sydenstricker T, Mochnaz S, Amico S (2003), “Pull-Out and other Evaluations in Sisal-Reinforced Polyester Biocomposites”, Polym. Testing, Vol. 22(4), pp 375–380.

Manikandan K, Diwan S and Thomas S (1996), “Tensile Properties of Short Sisal Fiber Reinforced Polystyrene Composites”, J. Appl. Polym. Sci., Vol. 60, pp 1483–97.

Eichhorn S (2001), “Mechanical Properties of Biodegradable Composites From Poly Lactic Acid (PLA) and Micro Crystalline Cellulose (MCC)”, Journal of Material. Science, Vol. 39(9), pp 2107–31.

Maldas D (1988), “Recent Developments in Polymer Consolidated Composites”, Polym., Vol 29(7), pp 1255–65.

Karnani R, Krishnan M and Narayan R (1997), “Biofiber-Reinforced Polypropylene Composites”, Polymer Engineering Science, Vol. 37(2), pp 476–82.

Jirawut Junkasem, James Menges and Pitt Supaphol (2006), “Mechanical Properties of Injection-Molded Isotactic Polypropylene/Roselle Fiber Composites”, J. Appl. Polym. Sci., Vol. 101, pp 3291–3300.

“Information on allied fibres, Histroy of Allied Fibre”, Background- National Institute of Research on Jute and Allied Fiber Technology (NIRJAFT), Indian Council of Agricultural Research.

De S K and White J R (1996), “Short Fiber-Polymer Composites,” Wood Head Publishing Limited, Cambridge, England.

Dicula M, Malhotra S K, Joseph K and Thomas S (2005), “Mechanical Properties and Dynamic Mechanical Analysis of Natural Fiber Composite”, Composite Science Technology, Vol. 65, pp 1077.

De Medeiros E S, Agnelli J A M, Joseph K, de Carvalho L H and Mattoso L H C (2005), “Mechanical Properties of Phenolic Composites Reinforced with Jute”, Polymer Composition, Vol. 26, pp 1-11.

Jacob M, Thomas S and Varughese K T (2004), “Tensile Properties of Wood Flour/Kenaf Fiber Polypropylene Hybrid Composite”, Application of Polymer Science, Vol. 93, pp 2305.

Mwaikambo L Y and Bisanda E T N (1999), “Chemical Resistance and Tensile Properties of Epoxy/Unsaturated Polyester Blend Coated Bamboo Fibers”, Polymer Testing, Vol. 18, pp 181-185.

Junior C Z P, de Carvalho L H, Fonseca V M, Monteiro S N and D’Almeida (2004), “Analysis of the Tensile Strength of Polyester/Hybrid Ramie–Cotton fiber composites”, Polymer Testing, Vol. 23 (2), pp 131.

Mehdi Tajvidi (2005), “Static And Dynamic Mechanical Properties of a Kenaf Fiber-Wood Flour/Polypropylene Hybrid Composite”, International Journal of Application of Polymer Science, Vol. 98, pp 672.

Shih-Chieh Lin and Jun-Ming Shen (1999), “Drilling Unidirectional Glass Fiber-Reinforced Composite Materials at High Speed”, Journal of Composite Material, Vol. 33(9), pp 827-851.

Khashaba U A (2004), “Delamination in Drilling GFR-Thermoset Composites”, Composite Structure, Vol. 63, pp 313–327.

Winowlin Jappes J T, Siva I and Alavudeen A (2007), “A Study on the Mechanical Properties of Straw, Sisal and Glass Fiber Hybrid Composites”, International Conference on Advanced Materials and Composites (ICAMC-2007), Organized by National Institute for Interdisciplinary Science & Technology, CSIR, Trivandrum, pp 178.

Sivasubramaniyan P, Alavudeen A, Siva I and Winowlin Jappes J T (2007), “Influence of Hybridization of Natural Fiber Composites on Mechanical Properties”, International Journal of Plastic Technology, Vol. 11(1&2), pp 791-803.

Koenig W and Grab P (1989), “Quality Definitions and Assessment in Drilling of Fiber Reinforced Thermosets”, ANN. CIRP, Vol. 38 (1), pp 119-124.

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Published

2023-11-24

How to Cite

[1]
“WEAR RESISTANCE AND DIMENSIONAL ACCURACY OF DRILLED HOLES OF SHORT ROSELLE / SISAL FIBER HYBRID POLYESTER COMPOSITE”, JME, vol. 4, no. 3, pp. 192–196, Nov. 2023, Accessed: Dec. 23, 2024. [Online]. Available: https://smenec.org/index.php/1/article/view/584

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