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Development and characterization of low cost jute, bagasse and glass fiber reinforced advanced hybrid epoxy composites

1 School of Engineering, Department of Mechanical Engineering, Gautam Buddha University, Greater Noida, 201312, India
2 Department of Mechanical & Automation Engineering, G.B. Pant Govt. Engineering College, New Delhi, 110020, India
3 Department of Mechanical Engineering, Shri Mata Vaishno Devi University, Jammu & Kashmir, 182320, India

Topical Section: Advanced composites

The application of natural fibers such as Jute/bagasse with glass fiber hybrid advanced composites has gained increasing interest both in many areas of engineering and technology. Hybrid plates of two compositions, i.e., Jute fiber mat-chopped glass fiber and Chopped Bagasse-glass fiber mat with epoxy as a matrix were fabricated using hand lay-up technique and their mechanical properties were evaluated. Tensile strength (TS), tensile modulus (TM), elongation at break (Eb%) and hardness of the composite samples were evaluated as per ASTM standards. Moisture absorption capacity for the above two compositions have been found out by hygrometric principle and it was concluded that the water absorption increased as the weight% of natural reinforcement increased. Degradation test has been carried out by burying the samples for different period (15–30 days) in the soil and it was found that as the weight% of natural fiber reinforcement increased the degradation rate increased. Tensile strength was found to be increased (11%) by alkali (NaOH) treatment of the natural fiber. The composite specimens were also immersed in the water for 24 hours and decrement in the tensile strength was noted. Microscopic examinations were carried out to analyse the interfacial characteristics of materials, internal structure of the fractured surfaces and material failure morphology by using Scanning Electron Microscope (SEM).
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Keywords hybrid; hygrometric; degradation test; alkali treatment; scanning electron microscope

Citation: Prashant Tripathi, Vivek Kumar Gupta, Anurag Dixit, Raghvendra Kumar Mishra, Satpal Sharma. Development and characterization of low cost jute, bagasse and glass fiber reinforced advanced hybrid epoxy composites. AIMS Materials Science, 2018, 5(2): 320-337. doi: 10.3934/matersci.2018.2.320


  • 1. Dixit A, Mali HS (2013) Modelling techniques for predicting the mechanical properties of woven-fabric textile composites: A review. Mech Compos Mater 49: 1–20.    
  • 2. Priyanka P, Dixit A, Mali HS (2017) High-Strength Hybrid Textile Composites with Carbon, Kevlar, and E-Glass Fibers for Impact-Resistant Structures. A Review. Mech Compos Mater 53: 685–704.
  • 3. Dixit A, Mali HS, Misra RK (2015) Investigation of the Thermomechanical Behavior of a 2 × 2 TWILL Weave Fabric Advanced Textile Composite. Mech Compos Mater 51: 253–264.    
  • 4. Joshi SV, Drzal LT, Mohanty AK, et al. (2004) Are natural fiber composites environmentally superior to glass fiber reinforced composites? Compos Part A-Appl S 35: 371–376.
  • 5. Di Luccio G, Michel L, Ferrier E, et al. (2017) Seismic retrofitting of RC walls externally strengthened by flax–FRP strips. Compos Part B-Eng 127: 133–149.    
  • 6. Ferreira SR, Pepe M, Martinelli E, et al. (2018) Influence of natural fibers characteristics on the interface mechanics with cement-based matrices. Compos Part B-Eng 140: 183–196.    
  • 7. Nirbhay M, Misra RK, Dixit A (2015) Finite-Element Analysis of Jute- and Coir-Fiber-Reinforced Hybrid Composite Multipanel Plates. Mech Compos Mater 51: 505–520.
  • 8. Dalbehera S, Acharya SK (2014) Study on mechanical properties of natural fiber reinforced woven jute-glass hybrid epoxy composites. Adv Polym Sci Technol 4: 1–6.
  • 9. Saw SK, Sarkhel G, Choudhury A (2011) Dynamic Mechanical Analysis of Randomly Oriented Short Bagasse/Coir Hybrid Fibre-Reinforced Epoxy Novolac Composite. Fiber Polym 12: 506–513.    
  • 10. Thwe MM, Liao K (2003) Durability of bamboo-glass fiber reinforced polymer matrix hybrid composites. Compos Sci Technol 63: 375–387.    
  • 11. Dayo AQ, Gao B, Wang J, et al. (2017). Natural hemp fiber reinforced polybenzoxazine composites: curing behavior, mechanical and thermal properties. Compos Sci Technol 144: 114–124.    
  • 12. Sathishkumar TP, Naveen J, Satheeshkumar S (2014) Hybrid fiber reinforced polymer composites—A review. J Reinf Plast Comp 33: 454–471.    
  • 13. Hossain MR, Islam MA, Vuurea AV, et al. (2013) Effect of Fiber Orientation on the Tensile Properties of Jute Epoxy Laminated Composite. J Sci Res 5: 43–54.
  • 14. Rahman MR, Huque MM, Islam MN, et al. (2008) Improvement of physico-mechanical properties of jute fiber reinforced polypropylene composites by post-treatment. Compos Part A-Appl S 39: 1739–1747.
  • 15. Ramesh M, Palanikumar K, Reddy KH (2013) Comparative Evaluation on Properties of Hybrid Glass Fiber-Sisal/Jute Reinforced Epoxy Composites. Procedia Eng 51: 745–750.
  • 16. Tewari M, Singh VK, Gope PC, et al. (2012) Evaluation of Mechanical Properties of Bagasse-Glass Fiber Reinforced Composite. J Mater Environ Sci 3: 171–184.
  • 17. Cao Y, Shibata S, Fukumoto I (2006) Mechanical properties of biodegradable composites reinforced with bagasse fibre before and after alkali treatments. Compos Part A-Appl S 37: 423–429.
  • 18. Gu H, Ma C, Gu J, et al. (2016) An overview of multifunctional epoxy nanocomposites. J Mater Chem C 4: 5890–5906.
  • 19. Gu H, Ma C, Liang C, et al. (2017) A low loading of grafted thermoplastic polystyrene strengthens and toughens transparent epoxy composites. J Mater Chem C 5: 4275–4285    
  • 20. Bajpai PK, Debnath K, Singh I (2017) Hole making in natural fiber-reinforced polylactic acid laminates: an experimental investigation. J Thermoplast Compos 30: 30–46.    
  • 21. Väisänen T, Das O, Tomppo L (2017) A review on new bio-based constituents for natural fiber-polymer composites. J Clean Prod 149: 582–596.
  • 22. Khan MN, Roy JK, Akter N, et al. (2012) Production and Properties of Short Jute and Short E-Glass Fiber Reinforced Polypropylene-Based Composites. Open J Compos Mater 2: 40–47.    
  • 23. Liang C, Song P, Gu H, et al. (2017) Nanopolydopamine coupled fluorescent nanozinc oxide reinforced epoxy nanocomposites. Compos Part A-Appl S 102: 126–136.    
  • 24. Wu Y, Xia C, Cai L, et al. (2018). Development of natural fiber-reinforced composite with comparable mechanical properties and reduced energy consumption and environmental impacts for replacing automotive glass-fiber sheet molding compound. J Clean Prod 184: 92–100.    


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