Skip to main content
EXTENDED SEARCH
Log in
Top
Journal of Polymer Research
Published in:

01-02-2025 | Original Paper

Sugarcane bagasse reinforced polymer based environmentally sustainable composites: influence of fiber content and matrix selection

Authors: Resego Phiri, Sanjay Mavinkere Rangappa, Suchart Siengchin

Published in: Journal of Polymer Research | Issue 2/2025

Log in

Activate our intelligent search to find suitable subject content or patents.

search-config
loading …

Abstract

The study investigates the mechanical properties of sugarcane bagasse reinforced polymer composites using different polymer matrices: PLA, UPR, bioepoxy, and HDPE. It evaluates the effects of varying fiber weight fractions (3wt%, 6wt%, and 9wt%) on tensile strength, tensile modulus, elongation at break, flexural strength, flexural modulus, impact strength, and hardness. The research aims to understand the potential of sugarcane bagasse as a sustainable reinforcement material and to explore its mechanical behavior across various polymer systems. The findings reveal that bioepoxy composites show the highest mechanical performance at 6wt% fiber loading, making them suitable for high load-bearing applications. Meanwhile, HDPE composites exhibit superior toughness and impact strength, ideal for applications requiring energy absorption. The study also identifies challenges such as poor fiber dispersion and agglomeration, which affect the composite properties, and suggests future research directions to optimize fiber-matrix bonding.
AI Generated

This summary of the content was generated with the help of AI.

previous article Graft copolymerization of tertiary butyl acrylate onto chitosan initiated by ceric ammonium nitrate in an acidic medium
next article Effect of surface treatment of MWCNTs on the enhancement of the thermal and mechanical properties of aramid-MWCNT composites

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Business + Economics & Engineering + Technology"

Online-Abonnement

Springer Professional "Business + Economics & Engineering + Technology" gives you access to:

  • more than 102.000 books
  • more than 537 journals

from the following subject areas:

  • Automotive
  • Construction + Real Estate
  • Business IT + Informatics
  • Electrical Engineering + Electronics
  • Energy + Sustainability
  • Finance + Banking
  • Management + Leadership
  • Marketing + Sales
  • Mechanical Engineering + Materials
  • Insurance + Risk


Secure your knowledge advantage now!

inform now

Springer Professional "Engineering + Technology"

Online-Abonnement

Springer Professional "Engineering + Technology" gives you access to:

  • more than 67.000 books
  • more than 390 journals

from the following specialised fileds:

  • Automotive
  • Business IT + Informatics
  • Construction + Real Estate
  • Electrical Engineering + Electronics
  • Energy + Sustainability
  • Mechanical Engineering + Materials





 

Secure your knowledge advantage now!

inform now
Literature
1.
Elfaleh I, Abbassi F, Habibi M et al (2023) A comprehensive review of natural fibers and their composites: an eco-friendly alternative to conventional materials. Results Eng 19:101271
2.
3.
Jugwanth Y, Sewsynker-Sukai Y, Kana EBG (2020) Valorization of sugarcane bagasse for bioethanol production through simultaneous saccharification and fermentation: optimization and kinetic studies. Fuel 262:116552CrossRef
4.
Arpitha GR, Mohit H, Madhu P, Verma A (2024) Effect of sugarcane bagasse and alumina reinforcements on physical, mechanical, and thermal characteristics of epoxy composites using artificial neural networks and response surface methodology. Biomass Convers Biorefin 14:12539–12557. https://​doi.​org/​10.​1007/​s13399-023-03886-7CrossRef
5.
Phiri R, Rangappa SM, Siengchin S (2023) Agro-waste for renewable and sustainable green production: a review. J Clean Prod 434:139989
6.
El-Ramady H, Brevik EC, Bayoumi Y et al (2022) An overview of agro-waste management in light of the water-energy-waste nexus. Sustainability 14:15717CrossRef
7.
Trivedi AK, Gupta MK, Singh H (2023) PLA based biocomposites for sustainable products: a review. Advanced Industrial and Engineering Polymer Research 6:382–395CrossRef
8.
Bartos A, Nagy K, Anggono J et al (2021) Biobased PLA/sugarcane bagasse fiber composites: effect of fiber characteristics and interfacial adhesion on properties. Compos Part A Appl Sci Manuf 143:106273CrossRef
9.
Sai DS, Singh SK, Chattaraj A et al (2024) Development of bagasse/PLA composites, it’s mechanical & chemical properties: a review. In: AIP Conference Proceedings. AIP Publishing
10.
Adeosun SO, Gbenebor OP, Akpan EI, Udeme FA (2016) Influence of organic fillers on physicochemical and mechanical properties of unsaturated polyester composites. Arab J Sci Eng 41:4153–4159CrossRef
11.
Ayyanar CB, Dharshinii MD, Marimuthu K et al (2022) Design, fabrication, and characterization of natural fillers loaded HDPE composites for domestic applications. Polym Compos 43:5168–5178CrossRef
12.
El-Shekeil YA, Sapuan SM, Algrafi MW (2014) Effect of fiber loading on mechanical and morphological properties of cocoa pod husk fibers reinforced thermoplastic polyurethane composites. Mater Des 64:330–333CrossRef
13.
Ismail NI, Ishak ZAM (2018) Effect of fiber loading on mechanical and water absorption capacity of Polylactic acid/Polyhydroxybutyrate-co-hydroxyhexanoate/Kenaf composite. In: IOP Conference Series: materials science and engineering. IOP Publishing, p. 012014
14.
Mahdi E, Dean A (2020) The effect of filler content on the tensile behavior of polypropylene/cotton fiber and poly (vinyl chloride)/cotton fiber composites. Materials 13:753CrossRefPubMedPubMedCentral
15.
Awaja F, Zhang S, Tripathi M et al (2016) Cracks, microcracks and fracture in polymer structures: formation, detection, autonomic repair. Prog Mater Sci 83:536–573CrossRef
16.
Vivek S, Kanthavel K, Torris A, Kavimani V (2020) Effect of bio-filler on hybrid sisal-Banana-Kenaf-flax based epoxy composites: a statistical correlation on flexural strength. J Bionic Eng 17:1263–1271CrossRef
17.
Tejyan S, Baliyan NK, Patel VK et al (2021) Polymer green composites reinforced with natural fibers: a comparative study. Mater Today Proc 44:4767–4769CrossRef
18.
Józó M, Várdai R, Bartos A et al (2022) Preparation of biocomposites with natural reinforcements: the effect of native starch and sugarcane bagasse fibers. Molecules 27:6423CrossRefPubMedPubMedCentral
19.
Subramonian S, Ali A, Amran M et al (2016) Effect of fiber loading on the mechanical properties of bagasse fiber–reinforced polypropylene composites. Adv Mech Eng 8:1687814016664258CrossRef
20.
Sivarao S, Jamaludin Z, Salleh MS et al (2021) Effects of sugarcane bagasse fibers on the mechanical behaviour of high density polyethylene. J Eng Sci Technol 16:4214–4220
21.
Agunsoye JO, Aigbodion VS (2013) Bagasse filled recycled polyethylene bio-composites: morphological and mechanical properties study. Results Phys 3:187–194CrossRef
22.
Rosamah E, Hossain MS, Abdul Khalil HPS et al (2017) Properties enhancement using oil palm shell nanoparticles of fibers reinforced polyester hybrid composites. Adv Compos Mater 26:259–272CrossRef
23.
Jariwala H, Jain P (2019) A review on mechanical behavior of natural fiber reinforced polymer composites and its applications. J Reinf Plast Compos 38:441–453CrossRef
24.
Asim M, Jawaid M, Abdan K, Ishak MR (2018) The effect of silane treated fibre loading on mechanical properties of pineapple leaf/kenaf fibre filler phenolic composites. J Polym Environ 26:1520–1527CrossRef
Metadata
Title
Sugarcane bagasse reinforced polymer based environmentally sustainable composites: influence of fiber content and matrix selection
Authors
Resego Phiri
Sanjay Mavinkere Rangappa
Suchart Siengchin
Publication date
01-02-2025
Publisher
Springer Netherlands
Published in
Journal of Polymer Research / Issue 2/2025
Print ISSN: 1022-9760
Electronic ISSN: 1572-8935
DOI
https://doi.org/10.1007/s10965-025-04291-6

Other articles of this Issue 2/2025

Impact of halloysite nanotubes on the curing characteristics, mechanical performance, and swelling resistance of SBR/NBR nanocomposites

  • Original Paper

Preparation of antibacterial/antiviral and pH responsive nanofiber membranes based on cellulose acetate

  • Original Paper

Bio-based healable thermoset polyurethanes containing dynamic phenol–carbamate bonds derived from quercetin and poly(trimethylene glycol)

  • Original Paper

Determining the impact of accelerated hydrothermal aging on the mechanical properties of polyvinyl chloride and chlorinated polyvinyl chloride

  • Original Paper

Preparation and characterization of chitosan/LDPE polymeric blends compatibilized with LDPE-g-MA

  • Original Paper

Preparation and properties of retarded cellulose-based polycarboxylic superplasticizers

  • Original Paper

Premium Partners

    Image Credits