Handbook of Composites from Renewable Materials, Structure and Chemistry
Herausgeber: Thakur, Vijay Kumar; Kessler, Michael R; Thakur, Manju Kumari
Handbook of Composites from Renewable Materials, Structure and Chemistry
Herausgeber: Thakur, Vijay Kumar; Kessler, Michael R; Thakur, Manju Kumari
- Gebundenes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
This unique multidisciplinary 8-volume set focuses on the emerging issues concerning synthesis, characterization, design, manufacturing and various other aspects of composite materials from renewable materials and provides a shared platform for both researcher and industry. The Handbook of Composites from Renewable Materials comprises a set of 8 individual volumes that brings an interdisciplinary perspective to accomplish a more detailed understanding of the interplay between the synthesis, structure, characterization, processing, applications and performance of these advanced materials. The…mehr
- Biomimicry for Materials, Design and Habitats217,99 €
- Aging and Durability of Frp Composites and Nanocomposites364,99 €
- Dong XiangCarbon-Based Conductive Polymer Composites178,99 €
- Polymer Composites Derived from Animal Sources259,99 €
- Polyurethane Polymers: Composites and Nanocomposites213,99 €
- George WypychSelf-Healing Materials338,99 €
- Emerging Sustainable and Renewable Composites72,99 €
-
-
-
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
- Produktdetails
- Verlag: John Wiley & Sons Inc
- Volume 1 ed.
- Seitenzahl: 570
- Erscheinungstermin: 30. Januar 2017
- Englisch
- Abmessung: 257mm x 183mm x 30mm
- Gewicht: 1162g
- ISBN-13: 9781119223627
- ISBN-10: 1119223628
- Artikelnr.: 44560465
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
- Verlag: John Wiley & Sons Inc
- Volume 1 ed.
- Seitenzahl: 570
- Erscheinungstermin: 30. Januar 2017
- Englisch
- Abmessung: 257mm x 183mm x 30mm
- Gewicht: 1162g
- ISBN-13: 9781119223627
- ISBN-10: 1119223628
- Artikelnr.: 44560465
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
. Mami
ski and Renata Toczy
owska-Mami
ska 7.1 Introduction 151 7.2 Glycerol 152 7.3 Tannins 156 7.4 Lignin 159 7.5 Polysaccharides 165 7.6 Proteins 170 7.7 Oils 175 7.8 Microorganism-produced biopolymers 177 8 Silk Biocomposites: Structure and Chemistry 189 Alexander Morin, Mahdi Pahlevan and Parvez Alam 8.1 Introduction 189 8.2 Spider Silk Protein 189 8.3 Bombyx Mori Silk 195 8.4 Silk Biocomposites: Applications 205 9 Isolation and Characterisation of Water Soluble Polysaccharide from Colocasia esculenta Tubers 221 Harshal Ashok Pawar, Pritam Dinesh Choudhary and Amit Jagannath Gavasane 9.1 Introduction 221 9.2 Materials and Methods 224 9.3 Results and Discussion 230 9.4 Conclusions 238 Acknowledgements 238 References 238 10 Bio-based Fillers for Environmentally Friendly Composites 243 Thabang H. Mokhothu and Maya J. John 10.1 Introduction 243 10.2 Bio-based Fillers/Reinforcements 244 10.3 Bio-based Fillers Reinforced Biopolymer Composites 255 10.4 Applications of Bio-based Composites 261 10.5 Summary 262 References 264 11 Keratin-based Materials in Biotechnology 271 Hafiz M. N. Iqbal and Tajalli Keshavarz 11.1 Introduction 271 11.2 Biopolymers 273 11.3 Classification of Biopolymers 273 11.4 Occurrence and Physicochemical Properties of Keratin 274 11.5 Keratin-based Biomaterials 276 11.6 Bio-composites 276 11.7 Properties of Bio-composites for Bio-medical Applications 278 11.8 Biomedical and Biotechnological Applications 280 11.9 Potential Applications 281 11.10 Concluding Remarks 284 References 284 12 Pineapple Leaf Fiber: A High Potential Reinforcement for Green Rubber and Plastic Composites 289 Taweechai Amornsakchai 12.1 Introduction 289 12.2 Structure of Pineapple Leaf and Pineapple Leaf Fiber 292 12.3 Conventional Methods of Fiber Extraction 293 12.4 The Novel Mechanical Grinding Method 293 12.5 Potential Applications of PALF as Reinforcement for Polymer Matrix Composites 298 12.6 Concluding Remarks 304 Acknowledgements 305 References 305 13 Insights into the Structure of Proteins Adsorbed onto Bioactive Glasses 309 Klára Magyari, Adriana Vulpoi and Lucian Baia 13.1 Introduction 309 13.2 Bioactive Glasses as Renewable Materials 310 13.3 Proteins Structure 313 13.4 Suitable Methods for Proteins Investigation 315 13.5 Interaction of Protein with Bioactive Glasses 320 13.6 Summary 330 Acknowledgements 331 14 Effect of Filler Properties on the Antioxidant Response of Thermoplastic Starch Composites 337 Tomy J. Gutiérrez, Paula González Seligra, Carolina Medina Jaramillo, Lucía Famá and Silvia Goyanes 14.1 Introduction 337 14.2 Starch-based Nanocomposites 338 14.3 Regulatory Aspect 355 14.4 Conclusions and Outlook 357 Acknowledgements 358 15 Preparation and Application of the Composite from Chitosan 371 Chen Yu 15.1 Introduction 371 15.2 Composites from Chitosan and Natural Polymers 372 15.3 Composites from Chitosan and Synthetic Polymers 380 15.4 Composites from Chitosan and Biomacromolecules 388 15.5 Composites from Chitosan and Inorganic Components 394 15.6 Composites from Chitosan and Carbon Materials 409 Acknowledgments 420 16 Overview on Synthesis of Magnetic Bio Char from Discarded Agricultural Biomass 435 Manoj Tripathi, N.M. Mubarak, J.N. Sahu and P.Ganesan 16.1 Introduction 436 16.2 Magnetic Bio Char 437 16.3 Synthesis of Magnetic Bio Char 438 16.4 Characteristics of Magnetic Bio Char 447 16.5 Applications of Magnetic Bio Char 450 16.6 Challenges and Future Scope of Magnetic Bio Char 452 16.7 Summary 452 Acknowledgement 454 17 Polyurethanes Foams from Bio-Based and Recycled Components 461 S.Gaidukovs, U.Cabulis and G.Gaidukova 17.1 Introduction 461 17.2 Experiments 464 17.3 Results and Discussion 467 Conclusions 478 References 479 18 Biodegradable Polymers for Protein and Peptide Therapeutics: Next Generation Delivery Systems 455 Sathish Dyawanapelly, Nishant Kumar Jain, Sindhu KR, Maruthi Prassana and Akhilesh Vikram Singh 18.1 Introduction 456 18.2 Protein Therapeutics and Their Challenges 456 18.3 Biodegradable Polymers for Conjugation 459 18.4 PEGylated Protein Therapeutics 460 18.5 Glycosylation of Proteins 470 18.6 Polyglycerols (PG)-Protein Conjugates 480 18.7 Dendrimer-Protein Conjugates 481 18.8 HESylation of Proteins 485 18.9 Dextran-Protein Conjugates 487 18.10 Dextrin-Protein Conjugates 494 18.11 Hyaluronic Acid (HA)-Protein Conjugates 496 18.12 Some Other Polymer-Protein Conjugates 503 18.13 PASylation 503 18.14 Conclusion and Future Perspectives 504 Abbreviations 504 References 507
. Mami
ski and Renata Toczy
owska-Mami
ska 7.1 Introduction 151 7.2 Glycerol 152 7.3 Tannins 156 7.4 Lignin 159 7.5 Polysaccharides 165 7.6 Proteins 170 7.7 Oils 175 7.8 Microorganism-produced biopolymers 177 8 Silk Biocomposites: Structure and Chemistry 189 Alexander Morin, Mahdi Pahlevan and Parvez Alam 8.1 Introduction 189 8.2 Spider Silk Protein 189 8.3 Bombyx Mori Silk 195 8.4 Silk Biocomposites: Applications 205 9 Isolation and Characterisation of Water Soluble Polysaccharide from Colocasia esculenta Tubers 221 Harshal Ashok Pawar, Pritam Dinesh Choudhary and Amit Jagannath Gavasane 9.1 Introduction 221 9.2 Materials and Methods 224 9.3 Results and Discussion 230 9.4 Conclusions 238 Acknowledgements 238 References 238 10 Bio-based Fillers for Environmentally Friendly Composites 243 Thabang H. Mokhothu and Maya J. John 10.1 Introduction 243 10.2 Bio-based Fillers/Reinforcements 244 10.3 Bio-based Fillers Reinforced Biopolymer Composites 255 10.4 Applications of Bio-based Composites 261 10.5 Summary 262 References 264 11 Keratin-based Materials in Biotechnology 271 Hafiz M. N. Iqbal and Tajalli Keshavarz 11.1 Introduction 271 11.2 Biopolymers 273 11.3 Classification of Biopolymers 273 11.4 Occurrence and Physicochemical Properties of Keratin 274 11.5 Keratin-based Biomaterials 276 11.6 Bio-composites 276 11.7 Properties of Bio-composites for Bio-medical Applications 278 11.8 Biomedical and Biotechnological Applications 280 11.9 Potential Applications 281 11.10 Concluding Remarks 284 References 284 12 Pineapple Leaf Fiber: A High Potential Reinforcement for Green Rubber and Plastic Composites 289 Taweechai Amornsakchai 12.1 Introduction 289 12.2 Structure of Pineapple Leaf and Pineapple Leaf Fiber 292 12.3 Conventional Methods of Fiber Extraction 293 12.4 The Novel Mechanical Grinding Method 293 12.5 Potential Applications of PALF as Reinforcement for Polymer Matrix Composites 298 12.6 Concluding Remarks 304 Acknowledgements 305 References 305 13 Insights into the Structure of Proteins Adsorbed onto Bioactive Glasses 309 Klára Magyari, Adriana Vulpoi and Lucian Baia 13.1 Introduction 309 13.2 Bioactive Glasses as Renewable Materials 310 13.3 Proteins Structure 313 13.4 Suitable Methods for Proteins Investigation 315 13.5 Interaction of Protein with Bioactive Glasses 320 13.6 Summary 330 Acknowledgements 331 14 Effect of Filler Properties on the Antioxidant Response of Thermoplastic Starch Composites 337 Tomy J. Gutiérrez, Paula González Seligra, Carolina Medina Jaramillo, Lucía Famá and Silvia Goyanes 14.1 Introduction 337 14.2 Starch-based Nanocomposites 338 14.3 Regulatory Aspect 355 14.4 Conclusions and Outlook 357 Acknowledgements 358 15 Preparation and Application of the Composite from Chitosan 371 Chen Yu 15.1 Introduction 371 15.2 Composites from Chitosan and Natural Polymers 372 15.3 Composites from Chitosan and Synthetic Polymers 380 15.4 Composites from Chitosan and Biomacromolecules 388 15.5 Composites from Chitosan and Inorganic Components 394 15.6 Composites from Chitosan and Carbon Materials 409 Acknowledgments 420 16 Overview on Synthesis of Magnetic Bio Char from Discarded Agricultural Biomass 435 Manoj Tripathi, N.M. Mubarak, J.N. Sahu and P.Ganesan 16.1 Introduction 436 16.2 Magnetic Bio Char 437 16.3 Synthesis of Magnetic Bio Char 438 16.4 Characteristics of Magnetic Bio Char 447 16.5 Applications of Magnetic Bio Char 450 16.6 Challenges and Future Scope of Magnetic Bio Char 452 16.7 Summary 452 Acknowledgement 454 17 Polyurethanes Foams from Bio-Based and Recycled Components 461 S.Gaidukovs, U.Cabulis and G.Gaidukova 17.1 Introduction 461 17.2 Experiments 464 17.3 Results and Discussion 467 Conclusions 478 References 479 18 Biodegradable Polymers for Protein and Peptide Therapeutics: Next Generation Delivery Systems 455 Sathish Dyawanapelly, Nishant Kumar Jain, Sindhu KR, Maruthi Prassana and Akhilesh Vikram Singh 18.1 Introduction 456 18.2 Protein Therapeutics and Their Challenges 456 18.3 Biodegradable Polymers for Conjugation 459 18.4 PEGylated Protein Therapeutics 460 18.5 Glycosylation of Proteins 470 18.6 Polyglycerols (PG)-Protein Conjugates 480 18.7 Dendrimer-Protein Conjugates 481 18.8 HESylation of Proteins 485 18.9 Dextran-Protein Conjugates 487 18.10 Dextrin-Protein Conjugates 494 18.11 Hyaluronic Acid (HA)-Protein Conjugates 496 18.12 Some Other Polymer-Protein Conjugates 503 18.13 PASylation 503 18.14 Conclusion and Future Perspectives 504 Abbreviations 504 References 507