Thermoplastic-polymer matrix composite of banana/betel nut husk fiber reinforcement: Physico-mechanical properties evaluation-Reference-Cited by-同舟云学术

Thermoplastic-polymer matrix composite of banana/betel nut husk fiber reinforcement: Physico-mechanical properties evaluation

Published:2024-01-01 Issue:1 Volume:24 Page:
ISSN:1618-7229
Container-title:e-Polymers
language:en
Short-container-title:

Author:

Mollah Mohammad Zahirul Islam¹²,Miah Md. Sumon³,Akram Md. Washim⁴,Mahmud Sayed Hasan⁵,Faruque Mohammad Rashed Iqbal²,Al-mugren Kholoud Saad⁶

Affiliation:

1. Institute of Radiation and Polymer Technology, Bangladesh Atomic Energy Commission , Dhaka , Bangladesh

2. Space Science Centre (ANGKASA), Universiti Kebangsaan Malaysia , 43600 Bangi , Selangor , Malaysia

3. Department of Textile Engineering, Dhaka University of Engineering & Technology , Gazipur , Dhaka , Bangladesh

4. Department of Fashion Design and Apparel Engineering, National Institute of Textile Engineering & Research , Savar , Bangladesh

5. Department of Textile Engineering, National Institute of Textile Engineering & Research , Savar , Bangladesh

6. Physics Department, College of Science, Princess Nourah Bint Abdulrahman University , 84428 Riyadh 11671 , Saudi Arabia

Abstract

Abstract Reinforced composite made of polypropylene combining banana and betel nut husk fiber (BBF) was treated with 10% NaOH (w/w). The fiber percentages of 40%, 50%, and 60% were used using the compression molding process. Properties such as tensile, bending, impact, thermogravimetric analysis (TGA), and water absorption were assessed as composite reinforcements. The composites with 50% BBF reinforcement performed better than composites with different fiber compositions. While 40% BBF-reinforced showed superior results in tensile, bending, and water absorption tests, the impact and TGA analyses provided comparatively lower results. The tensile strength (36 MPa), bending strength (78 MPa), energy absorption (2.4 Nm), thermal resistance (300–583°), and the maximum level of characteristics were attained. This work demonstrated the feasibility of repurposing waste banana stems and betel nut husks for interior decoration, furniture, and automobile bodies in fiber-reinforced hybrid composites, replacing expensive and environmentally hazardous artificial materials due to their mechanical capabilities.

Publisher

Walter de Gruyter GmbH

Link

https://www.degruyter.com/document/doi/10.1515/epoly-2023-0158/pdf

Reference64 articles.

1. Bledzki AK. Dynamic mechanical properties of natural fiber-reinforced epoxy foams. J Reinf Plast Compos. 2001;20(14–15):1263–74.

2. Thwe MM, Liao K. Durability of bamboo-glass fiber reinforced polymer matrix hybrid composites. Compos Sci Technol. 2003;63(3–4):375–87.

3. Thakur VK, Thakur MK. Processing and characterization of natural cellulose fibers/thermoset polymer composites. Carbohydr Polym. 2014;109:102–17.

4. Iliyasu I, Bello JB, Dibal MN, Oyedeji AN, Salami KA, Oyedeji EO. Response surface methodology for the optimization of the effect of fibre parameters on the physical and mechanical properties of deleb palm fibre reinforced epoxy composites. Sci Afr. 2022;16:e01269.

5. Muensri P, Kunanopparat T, Menut P, Siriwattanayotin S. Effect of lignin removal on the properties of coconut coir fiber/wheat gluten biocomposite. Compos Part A Appl Sci Manuf. 2011;42(2):173–9.