Effect of hybridization on natural fiber reinforced polymer composite materials – A review

This review explores the hybridization effect of natural fiber‐reinforced composites (NFRCs) to reduce energy consumption and environmental pollution. Although natural fibers offer several advantages over synthetic fibers, such as biodegradability, lightweight, and low cost, their application in NFR...

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Veröffentlicht in:	Polymer composites 2023-08, Vol.44 (8), p.4459-4479
Hauptverfasser:	Prem Kumar, R., Muthukrishnan, M., Felix Sahayaraj, A.
Format:	Artikel
Sprache:	eng
Schlagworte:	applications chemical treatment Composite materials Energy consumption Fiber composites Fiber reinforced polymers Lignocellulose mechanical Mechanical properties natural fiber composite Polymer matrix composites sound absorption Sound transmission Synthetic fibers Thermal stability Water absorption wear
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creator	Prem Kumar, R. Muthukrishnan, M. Felix Sahayaraj, A.
description	This review explores the hybridization effect of natural fiber‐reinforced composites (NFRCs) to reduce energy consumption and environmental pollution. Although natural fibers offer several advantages over synthetic fibers, such as biodegradability, lightweight, and low cost, their application in NFRCs is challenging due to inherent issues such as variable fiber quality, constrained mechanical properties, water absorption, and poor thermal stability. However, recent research has made significant progress in addressing these issues, resulting in better NFRCs. This article surveys the latest developments in plant‐based NFRCs, focusing on methods and innovations to enhance their performance through fiber modification, hybridization, incorporation of lignocellulosic fillers, and fabrication techniques for mechanical, sound absorption, and wear performance. It also discusses the expanding uses of NFRCs in various industrial sectors and the sustainability of plant‐based NFRCs using life‐cycle assessment. Natural fiber reinforced polymer composites‐review.
doi_str_mv	10.1002/pc.27489
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Although natural fibers offer several advantages over synthetic fibers, such as biodegradability, lightweight, and low cost, their application in NFRCs is challenging due to inherent issues such as variable fiber quality, constrained mechanical properties, water absorption, and poor thermal stability. However, recent research has made significant progress in addressing these issues, resulting in better NFRCs. This article surveys the latest developments in plant‐based NFRCs, focusing on methods and innovations to enhance their performance through fiber modification, hybridization, incorporation of lignocellulosic fillers, and fabrication techniques for mechanical, sound absorption, and wear performance. It also discusses the expanding uses of NFRCs in various industrial sectors and the sustainability of plant‐based NFRCs using life‐cycle assessment. 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subjects	applications chemical treatment Composite materials Energy consumption Fiber composites Fiber reinforced polymers Lignocellulose mechanical Mechanical properties natural fiber composite Polymer matrix composites sound absorption Sound transmission Synthetic fibers Thermal stability Water absorption wear
title	Effect of hybridization on natural fiber reinforced polymer composite materials – A review
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