Study of application of coconut coir fiber-based wood-based panels: A literature review

Study of application of coconut coir fiber-based wood-based panels: A literature review

Wood-based panels (WBPs) like medium-density fiberboard (MDF) rely heavily on wood resources, contributing to deforestation and sustainability challenges. Coconut coir fiber, an abundant agricultural byproduct, offers a promising alternative due to its high lignin content, mechanical strength, and e...

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Bibliographic Details
Main Authors: Nugroho Mamayu Hayuning Bawono, Baju Bawono, Paulus Wisnu Anggoro, Jamari Jamari
Format: Article
Language:English
Published: Elsevier 2025-07-01
Series:Composites Part C: Open Access
Subjects:
Coir fiber
Coconut husk
Wood-based panels
Medium density fiberboard
Renewable adhesive
Online Access:http://www.sciencedirect.com/science/article/pii/S2666682025000313
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Summary:Wood-based panels (WBPs) like medium-density fiberboard (MDF) rely heavily on wood resources, contributing to deforestation and sustainability challenges. Coconut coir fiber, an abundant agricultural byproduct, offers a promising alternative due to its high lignin content, mechanical strength, and environmental benefits. However, its commercial adoption in WBPs remains limited by insufficient research on bio-based adhesives and optimized processing methods. This review synthesizes current knowledge on coir fiber's properties, pre-treatment techniques (alkali, silane, enzyme), and adhesive systems (urea-formaldehyde, tannin, lignin) for WBPs. Coir's mechanical performance (tensile strength: 13.51 MPa) and density (0.63 g/cm³) are comparable to wood, but its high water absorption (90.79 % in 2H) necessitates targeted treatments. While formaldehyde-based adhesives dominate the industry, bio-alternatives like tannin and lignin show potential but require functionalization to match synthetic adhesives’ strength and durability. Critical gaps include the lack of standardized production protocols and scalable bio-adhesive formulations. Future research should prioritize hybrid adhesive development, coir-wood composite optimization, and product differentiation compare to regular WBPs. This review highlights coir's viability as a wood substitute while underscoring the need for interdisciplinary innovation to overcome technical and economic barriers.
ISSN:2666-6820

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