Verfügbarkeit: Properties and performance of natural-fibre composites

Properties and performance of natural-fibre composites:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Cambridge Woodhead [u.a.] 2008
Ausgabe:	1. publ.
Schriftenreihe:	Woodhead Publishing in materials
Schlagworte:	Fibrous composites Thermoplastic composites Naturfaser Faserverstärkter Kunststoff
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	XVII, 557 S. Ill., graph. Darst.
ISBN:	9781420077940 1845692675 9781845692674

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adam_text	Contents Contributor contact details xi Introduction xv KLPickering, University of Waikato, New Zealand Part I Natural-fibre composites 1 Natural fibers: types and properties 3 RM Rowell, University of Wisconsin, USA 1.1 Introduction 3 1.2 Fibrous plants 4 1.3 Fiber types 6 1.4 Fiber isolation methods 37 1.5 Fiber properties 39 1.6 Moisture properties 40 1.7 Fiber chemistry 43 1.8 Changes in properties during the growing season 44 1.9 Conclusions 50 1.10 Acknowledgment 50 1.11 Appendix: Chemical properties of natural plant fibers 50 1.12 References 64 2 Matrices for natural-fibre reinforced composites 67 PASreekumar, National Institute of Technology Calicut, India; S THOMAS, Mahatma Gandhi University, India 2.1 Introduction 67 2.2 Natural-fibre reinforced polymer composites 67 2.3 Different matrices 69 2.4 Aliphatic polyesters 71 2.5 Polyester amides 75 2.6 Starch plastics 76 vi Contents 2.7 Thermoplastic composites 78 2.8 Thermosetting composites 82 2.9 Biofibre-rubber composites 91 2.10 Biodegradable composites 94 2.11 Characterisation of surfaces and interfaces 100 2.12 Other techniques 108 2.13 Applications 113 2.14 Conclusions 113 2.15 References 114 3 Engineering the fibre-matrix interface in natural-fibre composites 127 N EZafeiropoulos, University of Ioannina, Greece 3.1 Introduction 127 3.2 Physical methods for surface modification 128 3.3 Chemical methods for modification of surfaces 131 3.4 Engineering the interface through control of processing conditions 144 3.5 Experimental methods for assessing the interface 147 3.6 Complementary techniques for indirect interfacial assessment 154 3.7 Conclusions and future trends 158 3.8 References and further reading 158 4 Processing techniques for natural- and wood-fibre composites 163 А К Bledzki, A Jasziewicz, M Murr and VE Sperber, University of Kassel, Germany; and R LÜTZKENDORF and T Reubmann, Thüringisches Institut für Textil- und Kunststoff-Forschung, Germany 4.1 Introduction 163 4.2 Factors influencing processing 164 4.3 Semi-finished product manufacturing 174 4.4 Processing technologies 180 4.5 Other processes 187 4.6 Future trends 189 4.7 Conclusions 189 4.8 References 190 5 Development of non-wood natural-fibre composites 193 RHNewman, Scion, New Zealand 5.1 Introduction 193 5.2 Matching properties to end uses 194 Contents vii 5.3 Development of fabrication methods 201 5.4 Future trends 204 5.5 Sources of further information and advice 204 5.6 Acknowledgements 204 5.7 References and further reading 204 6 Cellulose nanocomposites 209 R H Newman, Scion, New Zealand and M P Staiger, University of Canterbury, New Zealand 6.1 Introduction 209 6.2 Nanofibrous and nanocrystalline cellulose 209 6.3 Nanocomposite fabrication 212 6.4 Advantages of nanocomposites over natural-fibre composites 213 6.5 Future trends 215 6.6 Sources of further information and advice 216 6.7 References 216 Part II Case studies and opportunities 7 Natural-fiber composites in the automotive sector 221 MSHuda andLTDRZAL, Michigan State University, USA; D Ray, University of Calcutta, India; andAKMoHANTY and Μ Μι SRA, University of Guelph, Canada 7.1 Introduction 221 7.2 The use of natural-fiber composites (NFC) in automotive sector 223 7.3 Resins for fiber reinforced composites 226 7.4 Processing of natural-fiber composites for the automotive sector 231 7.5 Mechanical characterization of natural-fiber composites 243 7.6 Thermo-mechanical characterization and thermal behavior 249 7.7 Applications 256 7.8 Limitations in automotive applications 260 7.9 Future trends and conclusions 260 7.10 References 261 8 Natural-fibre composites in structural applications 269 M P Staiger, University of Canterbury, New Zealand; and N T u c K E R , The New Zealand Institute of Crop and Food Research, New Zealand 8.1 Introduction 269 8.2 The potential of natural fibres as stractural materials 271 8.3 Historical perspective on stractural applications of biocomposites 273 8.4 Natural-fibre-thermosetting biocomposites 280 viii Contents 8.5 Natural-fibre-thermoplastic biocomposites 288 8.6 Current limitations 294 8.7 Future trends 296 8.8 Sources of further information and advice 297 8.9 Acknowledgements 297 8.10 References 297 9 Natural-fibre-biodegradable polymer composites for packaging 301 M Duhovic. S Peterson and К Jayaraman, University of Auckland, New Zealand 9.1 Introduction 301 9.2 Structure and property issues related to the use of natural-fibre composites in packaging 312 9.3 Applications 318 9.4 Future trends 324 9.5 Summary 324 9.6 Acknowledgements 325 9.7 References 325 10 Opportunities for using wood and biofibers for energy, chemical feedstocks, and structural applications 330 J E Winandy, R S Williams, A W Rudie and R J ROSS, USDA Forest Service, USA 10.1 Introduction 330 10.2 Biorefining 331 10.3 Energy from biomass 333 10.4 Chemical and biochemical methods for producing fuels from biomass 334 10.5 Improving yields of fuels from biomass 336 10.6 Technology transfer and outlook for biorefining 339 10.7 Advanced wood and bio-based natural-fiber composites 340 10.8 Advanced structures using biocomposites 349 10.9 Summary 353 10.10 References 354 11 Market and innovation considerations in development of natural/wood-fiber composites 356 E Hansen, Oregon State University, USA 11.1 Introduction 356 11.2 Background 357 Contents ix 11.3 A growing interest in natural-fiber composite products 358 11.4 The industries involved 360 11.5 Innovation across the life cycle 362 11.6 The challenges of research and development 363 11.7 Research and development push 364 11.8 Market pull 366 11.9 Innovation management 367 11.10 Future trends 367 11.11 Sources of further information and advice 369 11.12 References and further reading 370 Part III Performance of natural-fibre composites 12 Mechanical testing of natural-fiber composites 375 P J Herrera -Franco and A Valadez -González, Centro de Investigación Científica, Mexico 12.1 Introduction 375 12.2 Materials and experimental procedures 376 12.3 Mechanical testing 378 12.4 Conclusions 400 12.5 References 400 13 Mechanical performance of thermoplastic matrix natural fibre composites 402 R J o F F Ε, Luleå University of Technology, Sweden; and J Andersons, University of Latvia, Latvia 13.1 Introduction 402 13.2 Stress-strain response in tension 405 13.3 Shear and compression 421 13.4 Flexural properties 427 13.5 Effect of fibre-matrix adhesion on mechanical properties 435 13.6 Impact strength 443 13.7 Effect of conditioning and environment on mechanical performance of thermoplastic matrix natural-fibre composites 448 13.8 Conclusion 457 13.9 Acknowledgements 457 13.10 References 457 14 Long-term performance of natural-fiber composites 460 S Mishra, University of Ottawa, Canada and M Sain, University of Toronto, Canada 14.1 Introduction 460 x Contents 14.2 Natural-fiber plastic composite products 460 14.3 Hygrothermal expansion 462 14.4 Ultraviolet radiation 472 14.5 Creep resistance 488 14.6 Conclusion 498 14.7 References 498 15 Modelling natural-fibre composites 503 J V A R Ν Α, Luleå University of Technology, Sweden 15.1 Introduction 503 15.2 Elastic properties of N-phase concentric cylinder assembly 505 15.3 Ultrastructure-based multiscale modelling of fibre elastic properties 512 15.4 Elastic properties of natural-fibre composites 525 15.5 Moisture expansion of natural-fibre composites 534 15.6 Concluding remarks 538 15.7 References 539 Appendix 15.1 Constitutive model of an orthotropic material 540 Appendix 15.2 Elastic parameters in solution for orthotropic material 541 Index 543 WOODHEAD PUBLISHING IN MATERIALS Concern about global warming has led to renewed interest in the more sustainable use of natural fibres in composite materials. This important book reviews the wealth of recent research into improving the mechanical properties of natural-fibre thermoplastic composites so that they can be more widely used. The first part of the book provides an overview of the main types of natural fibres used in composites, how they are processed and, in particular, the way the fibre-matrix interface can be engineered to improve performance. Part II discusses the increasing use of natural- fibre composites in such areas as automotive and structural engineering, packaging and the energy sector. The final part of the book discusses ways of assessing the mechanical performance of natural-fibre composites. With its distinguished editor and team of contributors, Properties and performance of natural-fibre composites will be a valuable reference for all those using these important materials in research and industry. Or Kim Pickering is a Senior Lecturer in the Engineering Department at the University of Waikato, New Zealand. She is internationally known for her research in the area of natural-fibre composites.
adam_txt	Contents Contributor contact details xi Introduction xv KLPickering, University of Waikato, New Zealand Part I Natural-fibre composites 1 Natural fibers: types and properties 3 RM Rowell, University of Wisconsin, USA 1.1 Introduction 3 1.2 Fibrous plants 4 1.3 Fiber types 6 1.4 Fiber isolation methods 37 1.5 Fiber properties 39 1.6 Moisture properties 40 1.7 Fiber chemistry 43 1.8 Changes in properties during the growing season 44 1.9 Conclusions 50 1.10 Acknowledgment 50 1.11 Appendix: Chemical properties of natural plant fibers 50 1.12 References 64 2 Matrices for natural-fibre reinforced composites 67 PASreekumar, National Institute of Technology Calicut, India; S THOMAS, Mahatma Gandhi University, India 2.1 Introduction 67 2.2 Natural-fibre reinforced polymer composites 67 2.3 Different matrices 69 2.4 Aliphatic polyesters 71 2.5 Polyester amides 75 2.6 Starch plastics 76 vi Contents 2.7 Thermoplastic composites 78 2.8 Thermosetting composites 82 2.9 Biofibre-rubber composites 91 2.10 Biodegradable composites 94 2.11 Characterisation of surfaces and interfaces 100 2.12 Other techniques 108 2.13 Applications 113 2.14 Conclusions 113 2.15 References 114 3 Engineering the fibre-matrix interface in natural-fibre composites 127 N EZafeiropoulos, University of Ioannina, Greece 3.1 Introduction 127 3.2 Physical methods for surface modification 128 3.3 Chemical methods for modification of surfaces 131 3.4 Engineering the interface through control of processing conditions 144 3.5 Experimental methods for assessing the interface 147 3.6 Complementary techniques for indirect interfacial assessment 154 3.7 Conclusions and future trends 158 3.8 References and further reading 158 4 Processing techniques for natural- and wood-fibre composites 163 А К Bledzki, A Jasziewicz, M Murr and VE Sperber, University of Kassel, Germany; and R LÜTZKENDORF and T Reubmann, Thüringisches Institut für Textil- und Kunststoff-Forschung, Germany 4.1 Introduction 163 4.2 Factors influencing processing 164 4.3 Semi-finished product manufacturing 174 4.4 Processing technologies 180 4.5 Other processes 187 4.6 Future trends 189 4.7 Conclusions 189 4.8 References 190 5 Development of non-wood natural-fibre composites 193 RHNewman, Scion, New Zealand 5.1 Introduction 193 5.2 Matching properties to end uses 194 Contents vii 5.3 Development of fabrication methods 201 5.4 Future trends 204 5.5 Sources of further information and advice 204 5.6 Acknowledgements 204 5.7 References and further reading 204 6 Cellulose nanocomposites 209 R H Newman, Scion, New Zealand and M P Staiger, University of Canterbury, New Zealand 6.1 Introduction 209 6.2 Nanofibrous and nanocrystalline cellulose 209 6.3 Nanocomposite fabrication 212 6.4 Advantages of nanocomposites over natural-fibre composites 213 6.5 Future trends 215 6.6 Sources of further information and advice 216 6.7 References 216 Part II Case studies and opportunities 7 Natural-fiber composites in the automotive sector 221 MSHuda andLTDRZAL, Michigan State University, USA; D Ray, University of Calcutta, India; andAKMoHANTY and Μ Μι SRA, University of Guelph, Canada 7.1 Introduction 221 7.2 The use of natural-fiber composites (NFC) in automotive sector 223 7.3 Resins for fiber reinforced composites 226 7.4 Processing of natural-fiber composites for the automotive sector 231 7.5 Mechanical characterization of natural-fiber composites 243 7.6 Thermo-mechanical characterization and thermal behavior 249 7.7 Applications 256 7.8 Limitations in automotive applications 260 7.9 Future trends and conclusions 260 7.10 References 261 8 Natural-fibre composites in structural applications 269 M P Staiger, University of Canterbury, New Zealand; and N T u c K E R , The New Zealand Institute of Crop and Food Research, New Zealand 8.1 Introduction 269 8.2 The potential of natural fibres as stractural materials 271 8.3 Historical perspective on stractural applications of biocomposites 273 8.4 Natural-fibre-thermosetting biocomposites 280 viii Contents 8.5 Natural-fibre-thermoplastic biocomposites 288 8.6 Current limitations 294 8.7 Future trends 296 8.8 Sources of further information and advice 297 8.9 Acknowledgements 297 8.10 References 297 9 Natural-fibre-biodegradable polymer composites for packaging 301 M Duhovic. S Peterson and К Jayaraman, University of Auckland, New Zealand 9.1 Introduction 301 9.2 Structure and property issues related to the use of natural-fibre composites in packaging 312 9.3 Applications 318 9.4 Future trends 324 9.5 Summary 324 9.6 Acknowledgements 325 9.7 References 325 10 Opportunities for using wood and biofibers for energy, chemical feedstocks, and structural applications 330 J E Winandy, R S Williams, A W Rudie and R J ROSS, USDA Forest Service, USA 10.1 Introduction 330 10.2 Biorefining 331 10.3 Energy from biomass 333 10.4 Chemical and biochemical methods for producing fuels from biomass 334 10.5 Improving yields of fuels from biomass 336 10.6 Technology transfer and outlook for biorefining 339 10.7 Advanced wood and bio-based natural-fiber composites 340 10.8 Advanced structures using biocomposites 349 10.9 Summary 353 10.10 References 354 11 Market and innovation considerations in development of natural/wood-fiber composites 356 E Hansen, Oregon State University, USA 11.1 Introduction 356 11.2 Background 357 Contents ix 11.3 A growing interest in natural-fiber composite products 358 11.4 The industries involved 360 11.5 Innovation across the life cycle 362 11.6 The challenges of research and development 363 11.7 Research and development push 364 11.8 Market pull 366 11.9 Innovation management 367 11.10 Future trends 367 11.11 Sources of further information and advice 369 11.12 References and further reading 370 Part III Performance of natural-fibre composites 12 Mechanical testing of natural-fiber composites 375 P J Herrera -Franco and A Valadez -González, Centro de Investigación Científica, Mexico 12.1 Introduction 375 12.2 Materials and experimental procedures 376 12.3 Mechanical testing 378 12.4 Conclusions 400 12.5 References 400 13 Mechanical performance of thermoplastic matrix natural fibre composites 402 R J o F F Ε, Luleå University of Technology, Sweden; and J Andersons, University of Latvia, Latvia 13.1 Introduction 402 13.2 Stress-strain response in tension 405 13.3 Shear and compression 421 13.4 Flexural properties 427 13.5 Effect of fibre-matrix adhesion on mechanical properties 435 13.6 Impact strength 443 13.7 Effect of conditioning and environment on mechanical performance of thermoplastic matrix natural-fibre composites 448 13.8 Conclusion 457 13.9 Acknowledgements 457 13.10 References 457 14 Long-term performance of natural-fiber composites 460 S Mishra, University of Ottawa, Canada and M Sain, University of Toronto, Canada 14.1 Introduction 460 x Contents 14.2 Natural-fiber plastic composite products 460 14.3 Hygrothermal expansion 462 14.4 Ultraviolet radiation 472 14.5 Creep resistance 488 14.6 Conclusion 498 14.7 References 498 15 Modelling natural-fibre composites 503 J V A R Ν Α, Luleå University of Technology, Sweden 15.1 Introduction 503 15.2 Elastic properties of N-phase concentric cylinder assembly 505 15.3 Ultrastructure-based multiscale modelling of fibre elastic properties 512 15.4 Elastic properties of natural-fibre composites 525 15.5 Moisture expansion of natural-fibre composites 534 15.6 Concluding remarks 538 15.7 References 539 Appendix 15.1 Constitutive model of an orthotropic material 540 Appendix 15.2 Elastic parameters in solution for orthotropic material 541 Index 543 WOODHEAD PUBLISHING IN MATERIALS Concern about global warming has led to renewed interest in the more sustainable use of natural fibres in composite materials. This important book reviews the wealth of recent research into improving the mechanical properties of natural-fibre thermoplastic composites so that they can be more widely used. The first part of the book provides an overview of the main types of natural fibres used in composites, how they are processed and, in particular, the way the fibre-matrix interface can be engineered to improve performance. Part II discusses the increasing use of natural- fibre composites in such areas as automotive and structural engineering, packaging and the energy sector. The final part of the book discusses ways of assessing the mechanical performance of natural-fibre composites. With its distinguished editor and team of contributors, Properties and performance of natural-fibre composites will be a valuable reference for all those using these important materials in research and industry. Or Kim Pickering is a Senior Lecturer in the Engineering Department at the University of Waikato, New Zealand. She is internationally known for her research in the area of natural-fibre composites.
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spelling	Properties and performance of natural-fibre composites ed. by Kim L. Pickering 1. publ. Cambridge Woodhead [u.a.] 2008 XVII, 557 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Woodhead Publishing in materials Fibrous composites Thermoplastic composites Naturfaser (DE-588)4127568-8 gnd rswk-swf Faserverstärkter Kunststoff (DE-588)4128805-1 gnd rswk-swf Faserverstärkter Kunststoff (DE-588)4128805-1 s Naturfaser (DE-588)4127568-8 s DE-604 Pickering, Kim L. Sonstige oth Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016990341&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016990341&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Properties and performance of natural-fibre composites Fibrous composites Thermoplastic composites Naturfaser (DE-588)4127568-8 gnd Faserverstärkter Kunststoff (DE-588)4128805-1 gnd
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title	Properties and performance of natural-fibre composites
title_auth	Properties and performance of natural-fibre composites
title_exact_search	Properties and performance of natural-fibre composites
title_exact_search_txtP	Properties and performance of natural-fibre composites
title_full	Properties and performance of natural-fibre composites ed. by Kim L. Pickering
title_fullStr	Properties and performance of natural-fibre composites ed. by Kim L. Pickering
title_full_unstemmed	Properties and performance of natural-fibre composites ed. by Kim L. Pickering
title_short	Properties and performance of natural-fibre composites
title_sort	properties and performance of natural fibre composites
topic	Fibrous composites Thermoplastic composites Naturfaser (DE-588)4127568-8 gnd Faserverstärkter Kunststoff (DE-588)4128805-1 gnd
topic_facet	Fibrous composites Thermoplastic composites Naturfaser Faserverstärkter Kunststoff
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016990341&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016990341&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT pickeringkiml propertiesandperformanceofnaturalfibrecomposites

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