Natural fibre composites : materials, processes and properties

The use of natural fibres as reinforcements in composites has grown in importance in recent years. Natural Fibre Composites summarises the wealth of significant recent research in this area. Chapters in part one introduce and explore the structure, properties, processing, and applications of natural fibre reinforcements, including those made from wood and cellulosic fibres. Part two describes and illustrates the processing of natural fibre composites. Chapters discuss ethical practices in the processing of green composites, manufacturing methods and compression and injection molding techniques for natural fibre composites, and thermoset matrix natural fibre-reinforced composites. Part three highlights and interprets the testing and properties of natural fibre composites including, non-destructive and high strain rate testing. The performance of natural fibre composites is examined under dynamic loading, the response of natural fibre composites to impact damage is appraised, and the response of natural fibre composites in a marine environment is assessed. Natural Fibre Composites is a technical guide for professionals requiring an understanding of natural fibre composite materials. It offers reviews, applications and evaluations of the subject for researchers and engineers.

Contributor contact details Woodhead Publishing Series in Composites Science and Engineering Part I: Natural fibre reinforcements Chapter 1: Wood fibres as reinforcements in natural fibre composites: structure, properties, processing and applications Abstract: 1.1 Introduction 1.2 Wood fibres: nature and behaviour 1.3 Modification of wood fibres for composites 1.4 Matrices (binders) of wood fibre composites 1.5 Process techniques of wood fibre composites 1.6 Properties of wood fibre composites 1.7 Applications of wood fibre composites 1.8 Future trends Chapter 2: Chemistry and structure of cellulosic fibres as reinforcements in natural fibre composites Abstract: 2.1 Introduction 2.2 Glucose monomer 2.3 Glucose biopolymerization 2.4 Cellulose structure 2.5 Chemical and solubility properties of cellulose 2.6 Sources of cellulose 2.7 Separation of cellulose 2.8 Purification of cellulose 2.9 Cellulose polymorphism 2.10 Chemical modification of cellulose 2.11 Preparation of nano-cellulose 2.12 Processing of cellulose 2.13 Applications of cellulose fibres 2.14 Conclusions 2.16 Appendix: abbreviations Chapter 3: Creating hierarchical structures in cellulosic fibre reinforced polymer composites for advanced performance Abstract: 3.1 Introduction 3.2 Creating hierarchical structures in (ligno)cellulosic fibre reinforced composite materials 3.3 Surface microfibrillation of (ligno)cellulosic fibres 3.4 Creating hierarchical structures in renewable composites by incorporating microfibrillated cellulose (MFC) into the matrix 3.5 Coating of (ligno)cellulosic fibres with bacterial cellulose 3.6 Conclusions and future trends 3.7 Acknowledgements Chapter 4: Recycled polymers in natural fibre-reinforced polymer composites Abstract: 4.1 Introduction 4.2 Fibre reinforcements in recycled composites 4.3 Processes for adding natural fibre reinforcements to composites 4.4 Improving the mechanical properties of recycled composites using natural fibre reinforcements 4.5 Applications of recycled polymer composites with natural fibre reinforcements 4.6 Conclusions and future trends 4.8 Appendix: abbreviations Chapter 5: Electrospun cellulosic fibre-reinforced composite materials Abstract: 5.1 Introduction 5.2 Electrospinning of non-derivatised and derivatised cellulosic fibres 5.3 Electrospun cellulosic fibres via polymer blends 5.4 Electrospun nanocomposite fibres 5.5 Mechanical properties of electrospun fibres and mats 5.6 Cellulose nanofibre-reinforced polymer composites 5.7 Future trends Part II: Processing of natural fibre composites Chapter 6: Ethical practices in the processing of green composites Abstract: 6.1 Introduction 6.2 Social impact and ethical practice 6.3 Case study: Waste for Life waste management model 6.4 Conclusions Chapter 7: Manufacturing methods for natural fibre composites Abstract: 7.1 Introduction 7.2 Fibre reinforcements 7.3 Reinforcement forms 7.4 Bio-based polymer matrices 7.5 Composites manufacturing processes 7.6 Key parameters for successful processing of natural fibre composites 7.7 Manufacturing techniques for natural fibre-reinforced polymer matrix composites 7.8 Case studies: automotive, building and construction, and marine applications 7.9 Conclusions Chapter 8: Compression and injection molding techniques for natural fiber composites Abstract: 8.1 Introduction 8.2 Emerging compression and injection molding technologies in the production of natural fiber composites 8.3 Processing natural fiber composites at high temperatures 8.4 Conclusions Chapter 9: Thermoset matrix natural fibre-reinforced composites Abstract: 9.1 Introduction 9.2 Natural fibres used in thermoset matrix composites 9.3 Thermoset matrix types 9.4 Fabrication of thermoset matrix composites 9.5 Mechanical properties of synthetic resin composites 9.6 Bioderived resin composites 9.7 Applications of thermoset matrix natural fibre composites 9.8 Future trends Part III: Testing and properties Chapter 10: Non-destructive testing (NDT) of natural fibre composites: acoustic emission technique Abstract: 10.1 Introduction 10.2 Using the acoustic emission (AE) technique in practice 10.3 Assessing results 10.4 Applications of AE 10.5 Future trends 10.6 Conclusions 10.7 Sources of further information and advice Chapter 11: High strain rate testing of natural fiber composites Abstract: 11.1 Introduction 11.2 Materials 11.3 Test methods 11.4 Results and discussion 11.5 Applications and future trends 11.6 Acknowledgments Chapter 12: Performance of natural fiber composites under dynamic loading Abstract: 12.1 Introduction 12.2 Natural fibers and natural fiber composites 12.3 Dynamic properties of natural fiber composites 12.4 Dynamic mechanical testing of natural fiber composites 12.5 Testing in practice: the example of pultruded natural fiber reinforced composites 12.6 Dynamic testing of composites 12.7 Performance of natural fiber reinforced composites under dynamic loading 12.8 Future trends 12.9 Acknowledgments Chapter 13: The response of natural fibre composites to impact damage: a case study Abstract: 13.1 Introduction 13.2 Mechanical characterization 13.3 Specimen preparation 13.4 Charpy impact test 13.5 Experimental results 13.6 Conclusion Chapter 14: Natural fibre composites in a marine environment Abstract: 14.1 Introduction 14.2 Properties and environmental impact of natural versus synthetic fibres 14.3 Natural fibre composites (NFCs) and moisture uptake 14.4 Geometrical considerations for plant fibres in NFCs 14.5 Marine applications of plant fibre composites 14.6 Conclusions and future trends 14.7 Sources of further information and advice Index