Short description:

This edited volume presents a comprehensive discussion of emerging sustainable and renewable composites from tropical fibres and provides an in-depth analysis of their prospective applications as replacements for conventional petroleum-based packaging and the challenges regarding this

Long description:

This edited volume presents a comprehensive discussion of emerging sustainable and renewable composites from tropical fibres and provides an in-depth analysis of their prospective applications as replacements for conventional petroleum-based packaging and the challenges regarding this.

Readers will gain a comprehensive understanding of the development and characterization of sustainable and renewable composites from fibres such as sugar palm, kenaf, sisal, curau, and coir. They will also learn about new potential materials from such fibres and their potential use in various nanoelectronics applications. Each chapter provides recent insight from some of the field?s most prominent industry and academic professionals. Chapter contributors present valuable case studies and describe related environmental issues, environmental advantages, and challenges. Topics include biodegradability, tensile and other physical properties, and applications. Consequently, readers can apply this knowledge to the further development of sustainable and renewable composites toward their global use in place of petroleum-based materials and in new electronics products.

This book is an invaluable and accessible guide for researchers and postgraduate students of composites engineering and nanotechnology who wish to learn more about composites from tropical fibres and their applications. The practical information will benefit those who wish to advance research in this field and promote the adoption of these materials in areas including packaging and nanoelectronics.

Table of Contents:

1. Analysing the Evolution of Sugar Palm Fiber (Arenga pinnata Wurmb. Merr) Polymer Hybrid Composites: A Review. 2. Environmental Degradation of Natural Fibre?Reinforced Composites. 3. Evaluation of Hybrid Corn Husk Fiber/Hibiscus tiliaceus Fiber Powders?Reinforced Coconut Shell/Polyester Composites: Effect of Volume Fraction on Mechanical and Morphological Properties. 4. Tropical Natural Fibres for Packaging Paper and Its Regulation. 5. Sustainable Substrate Based Biocomposites for Electronic Applications: A Review. 6. A Review on Functionalization and Mechanical Properties of Multiwalled Carbon Nanotubes/Natural Fibre?Reinforced Epoxy Composites. 7. Biodegradable Natural Fibre (Coconut Mesocarp) Filled Polypropylene Composites: Effects of the Compatibilizer and Coupling Agent on Tensile Properties. 8. Tensile Properties of Polypropylene Composites Reinforced by Bio-Natural Fibre (Sansevieria Leaf Fibre): The Effect of Fibre Loading. 9. Sustainable Product Development Using Renewable Composites for Marine Engineering Applications. 10. Seed/Fruit Fibre?Reinforced Composites. 11. Biocomposites from Durian Biomass Wastes: Properties, Characterisation, and Applications. 12. Biomaterials Based on Plant Fibres: Sustainable for Green Composites. 13. Carbonization of Biomass and Waste into Biosourced Carbon (BC) Nanofillers for Advanced Composite Applications. 14. Conducting Biopolymer Composite Films.