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Mechanical Properties of Hybrid Lignocellulosic Fiber-Reinforced Biopolymer Green Composites: A Review

Sustainability has been a global awareness due to the serious reduction of synthetic materials, especially petroleum. Many sectors and researchers have shifted toward lignocellulosic fibers from biomass wastes to replace synthetic fibers and reinforced bio-based polymer composites. The shift in comp...

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Main Authors: Asyraf M.R.M., Syamsir A., Ishak M.R., Sapuan S.M., Nurazzi N.M., Norrrahim M.N.F., Ilyas R.A., Khan T., Rashid M.Z.A.
Other Authors: 57205295733
Format: Review
Published: Korean Fiber Society 2024
Subjects:
Biopolymers
Glass fiber
Hybrid fibers
Lignocellulosic fiber
Mechanical performance
Biodegradability
Biomass
Composites
Mechanical Properties
Natural Fibers
Performance
Research
Review
Biomolecules
Hybrid composites
Natural fibers
Reinforced plastics
% reductions
Biomass wastes
Fibre-reinforced
Glass-fibers
Global awareness
Green composites
Hybrid fiber
Lignocellulosic fibres
Synthetic materials
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spelling my.uniten.dspace-344082024-10-14T11:19:35Z Mechanical Properties of Hybrid Lignocellulosic Fiber-Reinforced Biopolymer Green Composites: A Review Asyraf M.R.M. Syamsir A. Ishak M.R. Sapuan S.M. Nurazzi N.M. Norrrahim M.N.F. Ilyas R.A. Khan T. Rashid M.Z.A. 57205295733 57195320482 36809587400 35230794000 55899483400 55924430000 57196328367 57201669584 57221960339 Biopolymers Glass fiber Hybrid fibers Lignocellulosic fiber Mechanical performance Biodegradability Biomass Composites Mechanical Properties Natural Fibers Performance Research Review Biodegradability Biomolecules Hybrid composites Natural fibers Reinforced plastics % reductions Biomass wastes Fibre-reinforced Glass-fibers Global awareness Green composites Hybrid fiber Lignocellulosic fibres Mechanical performance Synthetic materials Biopolymers Sustainability has been a global awareness due to the serious reduction of synthetic materials, especially petroleum. Many sectors and researchers have shifted toward lignocellulosic fibers from biomass wastes to replace synthetic fibers and reinforced bio-based polymer composites. The shift in composite landscape toward green composites is due to their availability, low carbon emission, and biodegradability. Generally, green composites can be hybridized with various lignocellulosic fibers and they have high potential in the civil and automotive fields due to their mechanical performance. Nevertheless, research has found that they have inappropriate matches for the unique material attributes of green composites even though many studies have covered this topic. Studies on the mechanical performance of hybrid natural fibers green composites are still very limited. Overall, there are various mechanical properties of hybrid lignocellulosic fibers depending on their physical properties, orientation and sequence, treatments, polymers, and fabrication methods. From these considerations, a series of matching application properties are explained: these include structural applications for many industries. Thus, this review article establishes critical discussions on the mechanical properties of hybrid natural fibers reinforced biopolymer green composites. Some studies have identified the research gaps and deduced that the potential applications of hybrid green composites have not been explored. � 2023, The Author(s), under exclusive licence to the Korean Fiber Society. Final 2024-10-14T03:19:34Z 2024-10-14T03:19:34Z 2023 Review 10.1007/s12221-023-00034-w 2-s2.0-85148478651 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85148478651&doi=10.1007%2fs12221-023-00034-w&partnerID=40&md5=0be3606b4fba4e7fd187c5a7984f034b https://irepository.uniten.edu.my/handle/123456789/34408 24 2 337 353 Korean Fiber Society 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 Biopolymers
Glass fiber
Hybrid fibers
Lignocellulosic fiber
Mechanical performance
Biodegradability
Biomass
Composites
Mechanical Properties
Natural Fibers
Performance
Research
Review
Biodegradability
Biomolecules
Hybrid composites
Natural fibers
Reinforced plastics
% reductions
Biomass wastes
Fibre-reinforced
Glass-fibers
Global awareness
Green composites
Hybrid fiber
Lignocellulosic fibres
Mechanical performance
Synthetic materials
Biopolymers
spellingShingle Biopolymers
Glass fiber
Hybrid fibers
Lignocellulosic fiber
Mechanical performance
Biodegradability
Biomass
Composites
Mechanical Properties
Natural Fibers
Performance
Research
Review
Biodegradability
Biomolecules
Hybrid composites
Natural fibers
Reinforced plastics
% reductions
Biomass wastes
Fibre-reinforced
Glass-fibers
Global awareness
Green composites
Hybrid fiber
Lignocellulosic fibres
Mechanical performance
Synthetic materials
Biopolymers
Asyraf M.R.M.
Syamsir A.
Ishak M.R.
Sapuan S.M.
Nurazzi N.M.
Norrrahim M.N.F.
Ilyas R.A.
Khan T.
Rashid M.Z.A.
Mechanical Properties of Hybrid Lignocellulosic Fiber-Reinforced Biopolymer Green Composites: A Review
description Sustainability has been a global awareness due to the serious reduction of synthetic materials, especially petroleum. Many sectors and researchers have shifted toward lignocellulosic fibers from biomass wastes to replace synthetic fibers and reinforced bio-based polymer composites. The shift in composite landscape toward green composites is due to their availability, low carbon emission, and biodegradability. Generally, green composites can be hybridized with various lignocellulosic fibers and they have high potential in the civil and automotive fields due to their mechanical performance. Nevertheless, research has found that they have inappropriate matches for the unique material attributes of green composites even though many studies have covered this topic. Studies on the mechanical performance of hybrid natural fibers green composites are still very limited. Overall, there are various mechanical properties of hybrid lignocellulosic fibers depending on their physical properties, orientation and sequence, treatments, polymers, and fabrication methods. From these considerations, a series of matching application properties are explained: these include structural applications for many industries. Thus, this review article establishes critical discussions on the mechanical properties of hybrid natural fibers reinforced biopolymer green composites. Some studies have identified the research gaps and deduced that the potential applications of hybrid green composites have not been explored. � 2023, The Author(s), under exclusive licence to the Korean Fiber Society.
author2 57205295733
author_facet 57205295733
Asyraf M.R.M.
Syamsir A.
Ishak M.R.
Sapuan S.M.
Nurazzi N.M.
Norrrahim M.N.F.
Ilyas R.A.
Khan T.
Rashid M.Z.A.
format Review
author Asyraf M.R.M.
Syamsir A.
Ishak M.R.
Sapuan S.M.
Nurazzi N.M.
Norrrahim M.N.F.
Ilyas R.A.
Khan T.
Rashid M.Z.A.
author_sort Asyraf M.R.M.
title Mechanical Properties of Hybrid Lignocellulosic Fiber-Reinforced Biopolymer Green Composites: A Review
title_short Mechanical Properties of Hybrid Lignocellulosic Fiber-Reinforced Biopolymer Green Composites: A Review
title_full Mechanical Properties of Hybrid Lignocellulosic Fiber-Reinforced Biopolymer Green Composites: A Review
title_fullStr Mechanical Properties of Hybrid Lignocellulosic Fiber-Reinforced Biopolymer Green Composites: A Review
title_full_unstemmed Mechanical Properties of Hybrid Lignocellulosic Fiber-Reinforced Biopolymer Green Composites: A Review
title_sort mechanical properties of hybrid lignocellulosic fiber-reinforced biopolymer green composites: a review
publisher Korean Fiber Society
publishDate 2024
_version_ 1814061120008224768
score 13.214268

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