Investigation on the flexural properties of nanofillers loading on the Jute/Carbon/PLA nanocomposites

Sairy, Nur Aqilah; Mazlan, Norkhairunnisa; Ishak, Mohamad Ridzwan; Noriman, N. Z.

doi:10.15282/jmes.14.4.2020.11.0585

Cited by 2 publications

(1 citation statement)

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“…They concluded that bamboo fiber composites with CNT nanofillers could be used for a wide range of applications, including automotive parts, building and construction materials, and electrical and electronic components. In a recent study by Sairy et al, 7 researchers investigated the influence of graphene nanofillers on the characteristics of jute fiber composites. They found that the addition of graphene significantly enhanced the tensile strength, modulus, and thermal stability of the composites.…”

Section: Introductionmentioning

confidence: 99%

Mechanical analysis of sisal fiber/bio-epoxy/fly-ash reinforced hybrid composites

Mulenga,

Ude,

Chinnasamy

2023

Journal of Composite Materials

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This research investigates the mechanical characteristics of a novel hybrid composite material, which combines bio-epoxy reinforced with sisal fiber and integrated with fly ash nano-fillers. The study focuses on exploiting the environmentally friendly attributes of natural fiber composites and reducing reliance on synthetic materials. In this study, sisal fiber serves as the reinforcement, and a bio-epoxy matrix is utilized to create the composite. To further enhance its properties, fly ash, a byproduct of coal-fired power plants, is incorporated as a nano-filler. The experimental findings reveal significant improvements in the mechanical properties of the composite due to the inclusion of fly ash nano-fillers. The tensile strength shows a notable enhancement of up to 6.3%, flexural strength experiences an impressive increase of 68%, impact strength demonstrates a remarkable boost of 28%, and scratch hardness elevates by 17% which were all achieved at 20% fiber weight fraction and 5% fly ash weight fraction. The considerable potential of this hybrid sisal fiber reinforced bio-epoxy composite, integrated with fly ash nano-fillers, as an eco-friendly alternative to traditional synthetic composites is evident from these results. Such enhancements make the composite suitable for a wide range of engineering applications, including the manufacturing of automotive components, construction materials, and consumer goods. By adopting this bio-composite, industries can actively contribute to sustainable practices while maintaining optimal performance in their products. This research offers valuable insights into a promising solution for eco-conscious engineering applications, with both quantitative and qualitative evidence demonstrating the achievement of superior mechanical properties in this innovative hybrid material.

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Section: Introductionmentioning

confidence: 99%