Influence of Nanofillers on the Mechanical Characteristics of Natural Fiber Reinforced Polymer Composites

Mohanavel, V.; Suresh, S.; Ravichandran, M.; Rajkumar, S.; Velmurugan, Palanivel; Subbiah, Ram

doi:10.1149/10701.12513ecst

ECS Trans.

2022

DOI: 10.1149/10701.12513ecst

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Influence of Nanofillers on the Mechanical Characteristics of Natural Fiber Reinforced Polymer Composites

V. Mohanavel

S. Suresh²,

M. Ravichandran

et al.

Abstract: For the first time, natural fibers are being considered as a viable alternative to traditional synthetic fibers. These bio-composites were created using epoxy resin, nano-sized fine nano-tamarind shell ash particles, and water hyacinth fibers in this experimental work. Nano tamarind shell ash particles (0, 1, 3, 5, 7, and 9 wt. percent) were mixed with epoxy resin and water hyacinth fibers to create six different composite mates by the compression moulding machine. The composite specimens are prepared from the… Show more

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2024

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Cited by 16 publications

References 7 publications

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Study on the mechanical and thermal properties of aramid fibre reinforced with sawdust particulates in an epoxy matrix composite: a novel material for structural applications

Raja,

Devarajan

2024

Polymer International

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This study investigates the development and characterization of a novel composite material for structural applications, aiming to address the growing demand for lightweight, durable and versatile materials. The composite integrates aramid fibre reinforced with sawdust particulates within an epoxy matrix. Methodologically, the composite was fabricated using a hand layup process, ensuring even distribution and strong adhesion between components. Mechanical testing revealed significant enhancements in tensile strength (up to 135.29 MPa) and flexural strength (up to 136.92 MPa) with the inclusion of sawdust particulates, optimizing stress distribution and impact resistance. Hardness was also improved, peaking at a Rockwell hardness number of 94. Thermal analysis demonstrated moderate thermal conductivity (1.92 W mK−1) and a high heat deflection temperature (109 °C), indicating excellent thermal stability. SEM provided insights into the composite's microstructure, confirming uniform sawdust distribution and robust fibre–matrix adhesion. These findings underscore the potential of this composite for lightweight, durable and thermally stable structural applications. © 2024 Society of Chemical Industry.

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Study on the mechanical and thermal properties of aramid fibre reinforced with sawdust particulates in an epoxy matrix composite: a novel material for structural applications

Raja,

Devarajan

2024

Polymer International

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Study on the characteristics of novel natural fiber extracted from Coccinia grandis plant vine: a novel material for engineering applications

Raja,

Ali,

Shashi Kumar

et al. 2024

Int J Adv Manuf Technol

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Study on the Characteristics of Novel Natural Fiber Extracted from Crescentia cujete Plant Fruits—An Alternate Reinforcement for Synthetic Materials

Raja,

Yuvarajan

2024

J. Inst. Eng. India Ser. D

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Influence of Nanofillers on the Mechanical Characteristics of Natural Fiber Reinforced Polymer Composites

Cited by 16 publications

References 7 publications

Study on the mechanical and thermal properties of aramid fibre reinforced with sawdust particulates in an epoxy matrix composite: a novel material for structural applications

Study on the mechanical and thermal properties of aramid fibre reinforced with sawdust particulates in an epoxy matrix composite: a novel material for structural applications

Study on the characteristics of novel natural fiber extracted from Coccinia grandis plant vine: a novel material for engineering applications

Study on the Characteristics of Novel Natural Fiber Extracted from Crescentia cujete Plant Fruits—An Alternate Reinforcement for Synthetic Materials

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