A review of recent developments in kenaf fiber/polylactic acid composites research

Kenaf fiber has recently garnered exponential interest as reinforcement in composite materials across diverse industries owing to its superior mechanical attributes, ease of manufacture, and inherent biodegradability. In the discourse of this review, various methods of manufacturing kenaf/Polylactic...

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Main Authors: Khan A., Sapuan S.M., Siddiqui V.U., Zainudin E.S., Zuhri M.Y.M., Harussani M.M.
Other Authors: 58637155200
Format: Review
Published: Elsevier B.V. 2024
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spelling my.uniten.dspace-338512024-10-14T11:17:20Z A review of recent developments in kenaf fiber/polylactic acid composites research Khan A. Sapuan S.M. Siddiqui V.U. Zainudin E.S. Zuhri M.Y.M. Harussani M.M. 58637155200 35230794000 57202494204 12647194900 59157701600 57222407685 Acoustic properties Biocomposites Chemical modifications Kenaf Mechanical properties Polylactic acid Hibiscus Industry Plant Structures Polyesters 3D printing Acoustic properties Additives Biodegradability Chemical stability Hemp Kenaf fibers Reinforcement Tensile strength Thermodynamic stability acetic acid ammonia cellulose filler hemicellulose lignin polylactic acid polymer polyphosphate polyester polylactide 3D-printing Acoustics property Biocomposite Composites material Exponentials Inherent biodegradabilities Kenaf Mechanical attributes Polylactic acid Scientific literature acetylation acoustic property analytic method biocomposite material biodegradation chemical composition chemical modification chemical structure chemical, physical and mathematical phenomena drug delivery system flexural strength high temperature industrial production kenaf low temperature mechanical property mechanical stress mechanical test molecular weight natural fiber production nonhuman physical chemistry product development Review tensile strength thermostability three dimensional printing Hibiscus industry plant structures Chemical modification Kenaf fiber has recently garnered exponential interest as reinforcement in composite materials across diverse industries owing to its superior mechanical attributes, ease of manufacture, and inherent biodegradability. In the discourse of this review, various methods of manufacturing kenaf/Polylactic acid (PLA) composites have been discussed meticulously, as delineated in recently published scientific literatures. This paper delves into the chemical modification of kenaf fiber, examining its consequential impact on tensile strength and thermal stability of the kenaf/PLA composites. Further, this review illuminates the role of innovative 3D printing techniques and fiber orientation in augmenting the mechanical robustness of the kenaf/PLA composites. Simultaneously, recent insightful explorations into the acoustic properties of the kenaf/PLA composites, underscoring their potential as sustainable alternative to conventional materials have been reviewed. Serving as a comprehensive repository of knowledge, this review paper holds immense value for researchers aiming to utilize the capabilities of kenaf fiber reinforced PLA composites. � 2023 Elsevier B.V. Final 2024-10-14T03:17:20Z 2024-10-14T03:17:20Z 2023 Review 10.1016/j.ijbiomac.2023.127119 2-s2.0-85173874718 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85173874718&doi=10.1016%2fj.ijbiomac.2023.127119&partnerID=40&md5=c3d71695dc16c82fcb5ecc7468237a2f https://irepository.uniten.edu.my/handle/123456789/33851 253 127119 Elsevier B.V. Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Acoustic properties
Biocomposites
Chemical modifications
Kenaf
Mechanical properties
Polylactic acid
Hibiscus
Industry
Plant Structures
Polyesters
3D printing
Acoustic properties
Additives
Biodegradability
Chemical stability
Hemp
Kenaf fibers
Reinforcement
Tensile strength
Thermodynamic stability
acetic acid
ammonia
cellulose
filler
hemicellulose
lignin
polylactic acid
polymer
polyphosphate
polyester
polylactide
3D-printing
Acoustics property
Biocomposite
Composites material
Exponentials
Inherent biodegradabilities
Kenaf
Mechanical attributes
Polylactic acid
Scientific literature
acetylation
acoustic property
analytic method
biocomposite material
biodegradation
chemical composition
chemical modification
chemical structure
chemical, physical and mathematical phenomena
drug delivery system
flexural strength
high temperature
industrial production
kenaf
low temperature
mechanical property
mechanical stress
mechanical test
molecular weight
natural fiber production
nonhuman
physical chemistry
product development
Review
tensile strength
thermostability
three dimensional printing
Hibiscus
industry
plant structures
Chemical modification
spellingShingle Acoustic properties
Biocomposites
Chemical modifications
Kenaf
Mechanical properties
Polylactic acid
Hibiscus
Industry
Plant Structures
Polyesters
3D printing
Acoustic properties
Additives
Biodegradability
Chemical stability
Hemp
Kenaf fibers
Reinforcement
Tensile strength
Thermodynamic stability
acetic acid
ammonia
cellulose
filler
hemicellulose
lignin
polylactic acid
polymer
polyphosphate
polyester
polylactide
3D-printing
Acoustics property
Biocomposite
Composites material
Exponentials
Inherent biodegradabilities
Kenaf
Mechanical attributes
Polylactic acid
Scientific literature
acetylation
acoustic property
analytic method
biocomposite material
biodegradation
chemical composition
chemical modification
chemical structure
chemical, physical and mathematical phenomena
drug delivery system
flexural strength
high temperature
industrial production
kenaf
low temperature
mechanical property
mechanical stress
mechanical test
molecular weight
natural fiber production
nonhuman
physical chemistry
product development
Review
tensile strength
thermostability
three dimensional printing
Hibiscus
industry
plant structures
Chemical modification
Khan A.
Sapuan S.M.
Siddiqui V.U.
Zainudin E.S.
Zuhri M.Y.M.
Harussani M.M.
A review of recent developments in kenaf fiber/polylactic acid composites research
description Kenaf fiber has recently garnered exponential interest as reinforcement in composite materials across diverse industries owing to its superior mechanical attributes, ease of manufacture, and inherent biodegradability. In the discourse of this review, various methods of manufacturing kenaf/Polylactic acid (PLA) composites have been discussed meticulously, as delineated in recently published scientific literatures. This paper delves into the chemical modification of kenaf fiber, examining its consequential impact on tensile strength and thermal stability of the kenaf/PLA composites. Further, this review illuminates the role of innovative 3D printing techniques and fiber orientation in augmenting the mechanical robustness of the kenaf/PLA composites. Simultaneously, recent insightful explorations into the acoustic properties of the kenaf/PLA composites, underscoring their potential as sustainable alternative to conventional materials have been reviewed. Serving as a comprehensive repository of knowledge, this review paper holds immense value for researchers aiming to utilize the capabilities of kenaf fiber reinforced PLA composites. � 2023 Elsevier B.V.
author2 58637155200
author_facet 58637155200
Khan A.
Sapuan S.M.
Siddiqui V.U.
Zainudin E.S.
Zuhri M.Y.M.
Harussani M.M.
format Review
author Khan A.
Sapuan S.M.
Siddiqui V.U.
Zainudin E.S.
Zuhri M.Y.M.
Harussani M.M.
author_sort Khan A.
title A review of recent developments in kenaf fiber/polylactic acid composites research
title_short A review of recent developments in kenaf fiber/polylactic acid composites research
title_full A review of recent developments in kenaf fiber/polylactic acid composites research
title_fullStr A review of recent developments in kenaf fiber/polylactic acid composites research
title_full_unstemmed A review of recent developments in kenaf fiber/polylactic acid composites research
title_sort review of recent developments in kenaf fiber/polylactic acid composites research
publisher Elsevier B.V.
publishDate 2024
_version_ 1814061156153688064
score 13.222552