Investigation of Mechanical Properties of Luffa Cylindrica Particulates Reinforced Polylactic Acid Composite

Authors

  • Misbahu Ahmed National Centre for Petroleum Research and Development, Energy Commission of Nigeria, Abubakar Tafawa Balewa University Yelwa Campus Bauchi
  • Ibrahim Abdullahi Faculty of Mechanical Engineering Bayero University Kano New site, Gwarzo Road Kano

Keywords:

Luffa cylindrica particulates (LCP), polylactic acid (PLA), surface treatment, mechanical properties, compression molding

Abstract

The motive of this study is to lessen the dependence on non-degradable plastic by developing alternative material; luffa cylindrica particulates (LCP) reinforced polylactic acid (PLA) composites using the available plastic processing machineries. For that reason, this study focuses on the development of PLA/LCP biocomposite using compression molding and also investigated the effect of varying the LCP weight fraction and surface treatment on the density and the mechanical properties of the developed composites. The LCP were treated with 5 wt% NaOH solution. Two batches of composites were produced using treated LCP and untreated LCP. Composites were fabricated with 10, 20, 30, 40 and 50 wt% LCP for both the treated and untreated LCP using compression molding. Characterization of the composite was made based on the evaluation of its density, tensile properties, flexural properties, impact strength and hardness. The results showed that the densities of the treated composites were slightly lower than those of the untreated. The composite with treated LCP showed desirable properties at 10, 30 and 40 wt% LCP while the composites with the untreated LCP gave better results at 20 wt% LCP. Though these properties compared favorably with some reported properties for the natural fiber reinforced polymer composites, the use of other types of surface treatment for the LCP should be studied and also the effect of varying the wt% of NaOH solution be further investigated.

References

Umar S., 2015. Development and Characterization of Polylactic acid (PLA)/ Guinea corn (Sorghum Bicolor) Husk Particulate (GHP) Composites, Doctor of Philosophy Thesis. Department of Metallurgical and Material Science, Ahmadu Bello University (ABU) Zaria, Kaduna State, Nigeria.

Ramamoorthy S.K., Skrifvars M. and Persson A., 2015. A Review of Natural Fibers Used in Biocomposites: Plant, Animal and Regenerated Cellulose Fibers, Polymer Reviews, 55(1): 107-162.

Wayan S., Kade S. and Krissanti A., 2014. Mechanical Properties of Rice Husk Fiber Reinforced Polyester Composites, International Journal of Materials, Mechanics and Manufacturing, 2(2): 165-168.

Wambua P., Ivens J. and Verpoest I., 2003. Natural Fibres: Can They Replace Glass in Fibre Reinforced Plastics? Composite Science and Technology, 63: 1259 – 1264.

Patra S., Mohanta K.L and Parida C., 2019. Mechanical Properties of Bio-fiber Composites Reinforced with Luffa Cylindrica Irradiated by Electron Beam, International Journal of Modern Physics B, 33(26): 195-305.

Parida C., Sarat K.D., Pinaki C., 2015. Mechanical Properties of Injection Molded Poly(lactic) Acid—Luffa Fiber Composites, Soft Nanoscience Letters, 5: 65–72.

Kakar A., Jayamani E., Heng S.K., Bakri M.K.B. and Hamdan S., 2015 Optimization of Hot Press Compression Molding and Fabrication of Poly Lactic Acid (PLA) Luffa Biocomposites for Biomedical Applications, Australian Journal of Basic and Applied Sciences, 9: 105-112.

Srebrenkoska V., Gaceva G.B. and Dimesk D., 2014. Biocomposites Based on Polylactic Acid and Their Thermal Behavior after Recycling, Macedonian Journal of Chemistry and Chemical Engineering, 33: 277-285.

Avella M., Buzarovska A., Errico M.E., Gentile G. and Grozdanov A., 2009. Eco-Challenges of Bio-Based Polymer Composites, Materials, 2: 911-925.

Mishra S.M., Drzal L.T., Parija S.N. and Tripathy S.S., 2003. Studies on Mechanical Performance of Biofibre/Glass Reinforced Polyester Hybrid Composites. Composites Science and Technology, 63(10): 1377–1385.

Faludi G., Dora G., Renner K., Moczo J. and Pukanszky B., 2013a. Biocomposite from Polylactic Acid and Lignocellulosic Fibers: Structure-property Correlations, Carbohydrate Polymers, 92(2): 1767-1775.

Fortunati E., Armentano I., Iannoni A. and Kenny J., 2010. Development and Thermal Behaviour of Ternary PLA Matrix Composites, Polymer Degradation and Stability, 95(11): 2200-2206.

Ghali L., Msahli S., Zidi M. and Sakli F., 2009. Effect of Pre-treatment of Luffa Fibres on the Structural Property, Material Letters, 63(1): 61-63.

Castellano M., Gandini A., Fabbri P. and Belgacem M., 2004. Modification of Cellulose Fibres with Organosilanes: Under What Conditions Does Coupling Occur? Journal of Colloid and Interface Science, 273(2): 505-511.

Kim H-S., Lee B-H., Choi S-W., Kim S. and Kim H-J., 2007. The Effect of Types of Maleic Anhydride-grafted Polypropylene (MAPP) on the Interfacial Adhesion Properties of Bioflour-filled Polypropylene Composites, Composites Part A: Applied Science and Manufacturing, 38(6): 1473 - 1482.

Finkenstadt V., Liu L. and Willett J.L., 2007a. Evaluation of Poly(lactic acid) and Sugar Beet Pulp Green Composites, Journal of Polymers and the Environment, 15: 1-6.

Clarizio S.C. and Tatara R.A., 2012. Tensile Strength, Elongation, Hardness, and Tensile and Flexural Moduli of PLA Filled with Glycerol-plasticized DDGS, Journal of Polymers and the Environment, 20: 638-646.

Ahmad I., Abu-Bakar D., Mokhilas S. and Raml A., 2007. Direct Usage of Products of Poly(ethylene terephthalate) Glycolysis for Manufacturing of Rice Husk/Unsaturated Polyester Composite, Iranian Polymer Journal, 16(4): 233-239.

Ewulonu C.M. and Igwe I.O., 2011. Properties of Oil Palm Empty Fruit Bunch Fibre Filled High Density Polyethylene, International Journal of Engineering and Technology, 3(6): 458-471.

Ibrahim M., Sapuan S. and Faieza A., 2012. Mechanical and Thermal Properties of Composites from Unsaturated Polyester Filled with Oil Palm Ash, Journal of Mechanical Engineering and Sciences, 2: 133-147.

Eze I.O., Obidiegwu M.U. and Eyarefe S.O., 2013. Some Mechanical and End-use Properties of Bamboo Powder Filled Low Density Polyethylene Composites, Natural and Applied Sciences: Part-I, 4(2): 199-207.

Koutsomitopoulou A., Bénézet J., Bergeret A. and Papanicolaou G., 2014. Preparation and Characterization of Olive Pit Powder as a Filler to PLA-matrix Bio-composites, Powder Technology, 255: 10-16.

Yussuf A.A., Massoumi I. and Hassan A., 2010. Comparison of Polylactic Acid/Kenaf and Polylactic Acid/Rice Husk Composites: The Influence of the Natural Fibers on the Mechanical, Thermal and Biodegradability Properties, Journal of Polymers and the Environment, 18: 422–429.

Huda M.S., Drzal L.T., Misra M. and Mohanty A.K., 2006. Wood-Fiber-Reinforced Poly(lactic acid) Composites: Evaluation of the Physicomechanical and Morphological Properties, Journal of Applied Polymer Science, 102(5): 4856–4869.

Subramonian S., Ali A., Amran M., Sivakumar L., Salleh S. and Rajaizam A., 2016. Effect of Fiber Loading on the Mechanical Properties of Bagasse Fiber–reinforced Polypropylene Composites, Advances in Mechanical Engineering, 8(8). DOI: 10.1177/1687814016664258.

Nwanonenyi S.C., Obidiegwu M.U. and Onuegbu G.C., 2013. Effects of Particle Sizes, Filler Contents and Compatibilization On the Properties of Linear Low-Density Polyethylene Filled Periwinkle Shell Powder, International Journal of Engineering and Science, 2(2): 1–8.

Părpărită E., Darie R., Popescu C-M., Uddin M.A. and Vasile C., 2014. Structure– morphology–mechanical Properties Relationship of Some Polypropylene/lignocellulosic Composites, Materials and Design, 56: 763-772.

Imoisili P., Olunlade B. and Tomori W., 2012. Effect of Silane Coupling Agent on the Tensile Properties of Rice Husk Flour (RHF) Polyester Composite, The Pacific Journal of Science and Technology, 13(1): 457-462.

Downloads

Published

2020-12-19

How to Cite

Ahmed, M., & Abdullahi, I. (2020). Investigation of Mechanical Properties of Luffa Cylindrica Particulates Reinforced Polylactic Acid Composite. Jurnal Mekanikal, 43(2). Retrieved from https://jurnalmekanikal.utm.my/index.php/jurnalmekanikal/article/view/410

Issue

Section

Mechanical

Similar Articles

<< < 23 24 25 26 27 28 29 30 31 32 > >> 

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