A comprehensive review of natural fibers and their composites: An eco-friendly alternative to conventional materials

Breakthroughs in materials science are the driving force behind many of today's industrial advancements in our fast-changing high-tech world. Composite materials have proven valuable in numerous sectors, including automotive, aerospace, aeronautics, naval, and sports, due to their exceptional m...

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Published in	Results in engineering Vol. 19; p. 101271
Main Authors	Elfaleh, Issam, Abbassi, Fethi, Habibi, Mohamed, Ahmad, Furqan, Guedri, Mohamed, Nasri, Mondher, Garnier, Christian
Format	Journal Article
Language	English
Published	Elsevier B.V 01.09.2023 Elsevier
Subjects	Eco-friendly material Fiber surface treatment Natural fiber reinforced polymer composites Natural fibers Physico-mechanical properties Potential applications Physico-mechanical properties Natural fiber reinforced polymer composites Natural fibers Eco-friendly material Fiber surface treatment Potential applications
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Abstract	Breakthroughs in materials science are the driving force behind many of today's industrial advancements in our fast-changing high-tech world. Composite materials have proven valuable in numerous sectors, including automotive, aerospace, aeronautics, naval, and sports, due to their exceptional mechanical properties and lightweight nature. However, environmental concerns have led to a decrease in the use of fossil fuel-derived materials. Additionally, efforts to reduce greenhouse gas emissions and improve fuel efficiency require lightweight materials with a lower carbon footprint, highlighting the importance of natural fiber composites. Natural fiber composites are made from renewable resources, comprising reinforcements made of natural fibers such as jute, flax, ramie, hemp, cotton, sisal, and kenaf, and a matrix, preferably derived from biomass, which may or may not be biodegradable. However, plant fibers have certain drawbacks when combined with polymers. Due to the presence of hydroxyl groups in lignocellulose, plant fibers are hydrophilic, making them incompatible with hydrophobic thermoplastics and prone to moisture damage. These limitations pose challenges for using plant fibers as polymer reinforcement. To improve adhesion between fibers and the polymer matrix and reduce moisture absorption, surface modifications are typically required. Various methods, such as alkaline, silane, or other chemical treatments, have been developed to enhance fiber-matrix compatibility and improve composite quality. Although natural fiber composites are still in development and their applications are limited, they hold great promise as a sustainable alternative to conventional materials. •Overview about the main characteristics of natural fibres and their prospective uses in composite materials.•Gathering important data about natural fibers and their composites.•Presentation of eco-friendly composites applications and the effect of natural fiber treatment on the composite's behavior.•Analysis of the use of natural fibre composites and their ability to replace conventional materials.
AbstractList	Breakthroughs in materials science are the driving force behind many of today's industrial advancements in our fast-changing high-tech world. Composite materials have proven valuable in numerous sectors, including automotive, aerospace, aeronautics, naval, and sports, due to their exceptional mechanical properties and lightweight nature. However, environmental concerns have led to a decrease in the use of fossil fuel-derived materials. Additionally, efforts to reduce greenhouse gas emissions and improve fuel efficiency require lightweight materials with a lower carbon footprint, highlighting the importance of natural fiber composites. Natural fiber composites are made from renewable resources, comprising reinforcements made of natural fibers such as jute, flax, ramie, hemp, cotton, sisal, and kenaf, and a matrix, preferably derived from biomass, which may or may not be biodegradable. However, plant fibers have certain drawbacks when combined with polymers. Due to the presence of hydroxyl groups in lignocellulose, plant fibers are hydrophilic, making them incompatible with hydrophobic thermoplastics and prone to moisture damage. These limitations pose challenges for using plant fibers as polymer reinforcement. To improve adhesion between fibers and the polymer matrix and reduce moisture absorption, surface modifications are typically required. Various methods, such as alkaline, silane, or other chemical treatments, have been developed to enhance fiber-matrix compatibility and improve composite quality. Although natural fiber composites are still in development and their applications are limited, they hold great promise as a sustainable alternative to conventional materials. Breakthroughs in materials science are the driving force behind many of today's industrial advancements in our fast-changing high-tech world. Composite materials have proven valuable in numerous sectors, including automotive, aerospace, aeronautics, naval, and sports, due to their exceptional mechanical properties and lightweight nature. However, environmental concerns have led to a decrease in the use of fossil fuel-derived materials. Additionally, efforts to reduce greenhouse gas emissions and improve fuel efficiency require lightweight materials with a lower carbon footprint, highlighting the importance of natural fiber composites. Natural fiber composites are made from renewable resources, comprising reinforcements made of natural fibers such as jute, flax, ramie, hemp, cotton, sisal, and kenaf, and a matrix, preferably derived from biomass, which may or may not be biodegradable. However, plant fibers have certain drawbacks when combined with polymers. Due to the presence of hydroxyl groups in lignocellulose, plant fibers are hydrophilic, making them incompatible with hydrophobic thermoplastics and prone to moisture damage. These limitations pose challenges for using plant fibers as polymer reinforcement. To improve adhesion between fibers and the polymer matrix and reduce moisture absorption, surface modifications are typically required. Various methods, such as alkaline, silane, or other chemical treatments, have been developed to enhance fiber-matrix compatibility and improve composite quality. Although natural fiber composites are still in development and their applications are limited, they hold great promise as a sustainable alternative to conventional materials. •Overview about the main characteristics of natural fibres and their prospective uses in composite materials.•Gathering important data about natural fibers and their composites.•Presentation of eco-friendly composites applications and the effect of natural fiber treatment on the composite's behavior.•Analysis of the use of natural fibre composites and their ability to replace conventional materials.
ArticleNumber	101271
Author	Guedri, Mohamed Garnier, Christian Abbassi, Fethi Ahmad, Furqan Habibi, Mohamed Nasri, Mondher Elfaleh, Issam
Author_xml	– sequence: 1 givenname: Issam surname: Elfaleh fullname: Elfaleh, Issam organization: Research unit on Structural Dynamics, Modeling and Engineering of Multi-Physics Systems-IPEIN, Tunisia – sequence: 2 givenname: Fethi orcidid: 0000-0001-7530-2116 surname: Abbassi fullname: Abbassi, Fethi email: fethi.abbassi@aum.edu.kw organization: College of Engineering and Technology, American University of the Middle East, Kuwait – sequence: 3 givenname: Mohamed surname: Habibi fullname: Habibi, Mohamed organization: Department of Mechanical Engineering, Université Du Québec à Trois-Rivières, Quebec, Canada – sequence: 4 givenname: Furqan surname: Ahmad fullname: Ahmad, Furqan organization: Department of Mechanical and Mechatronics Engineering, Dhofar University, Salalah, Oman – sequence: 5 givenname: Mohamed surname: Guedri fullname: Guedri, Mohamed organization: Research unit on Structural Dynamics, Modeling and Engineering of Multi-Physics Systems-IPEIN, Tunisia – sequence: 6 givenname: Mondher surname: Nasri fullname: Nasri, Mondher organization: LMPE, ENSIT, University of Tunis, 5 Avenue Hussein, BP, 56, Bâb Manara 1008, Tunisia – sequence: 7 givenname: Christian surname: Garnier fullname: Garnier, Christian organization: Laboratoire Génie de Production (LGP), University of Toulouse, INP-ENIT, 47 Av. D’Azereix, 65016, Tarbes, France
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SubjectTerms	Eco-friendly material Fiber surface treatment Natural fiber reinforced polymer composites Natural fibers Physico-mechanical properties Potential applications
Title	A comprehensive review of natural fibers and their composites: An eco-friendly alternative to conventional materials
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