Document Type : Original Article
Authors
1
Benha, Egypt
2
Benha University, Faculty of Applied Arts, Textile Printing, Dyeing and Finishing Department, Benha, Egypt
3
Benha University, Faculty of Applied Arts, Printing, Dyeing and Finishing Department, Benha, Egypt
4
National Research Centre (NRC), Textile Research and Technology Institute (TRTI), Pre-treatment and Finishing of Cellulose based Textiles Department (PFCTD), El-Behouth St. (former El-Tahrir str.), Dokki, P.O. 12622, Giza, Egypt
Abstract
Plant fibers, including bamboo fibers, are used in reinforced polymeric composite materials to promote environmental sustainability. Bamboo fibers offer mechanical characteristics, recyclability, and environmental friendliness, making them suitable for construction applications. Natural fibers, which are renewable and eco-friendly, can replace synthetic materials in various industries. Plant fibers consist of cellulose, hemicellulose, lignin, and pectin. The mechanical properties of fibers improve with increased cellulose content. Bamboo, a fast-growing grass with woody stalks, is used as a source of bast fiber and cellulose. It is abundant in various regions worldwide and has high tensile strength, making it a potential alternative to steel. Bamboo textiles are in demand due to their antibacterial properties, biodegradability, high moisture absorption capacity, and UV protection. Bamboo culms have a hollow cylinder structure with diaphragms and vascular bundles that provide strength. The microstructure of bamboo culms includes vascular bundles, bundle sheaths, xylem, and phloem. The chemical composition of bamboo fiber consists of cellulose, hemicelluloses, lignin, and minor components. Bamboo exhibits stiffness and toughness due to its lignin content, which acts as a bonding agent. Bamboo fiber extraction methods include mechanical extraction and chemical processing. Mechanical extraction techniques involve processes like steam explosion and retting to separate the fibers.
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