(Ebook) Biodegradable Polymers Blends and Composites 1st Edition by Sanjay Mavinkere Rangappa, Jyotishkumar Parameswaranpillai, Suchart Siengchin, M Ramesh ISBN 0128237910 9780128237915

(Ebook) Biodegradable Polymers Blends and Composites 1st Edition by Sanjay Mavinkere Rangappa, Jyotishkumar Parameswaranpillai, Suchart Siengchin, M Ramesh ISBN 0128237910 9780128237915

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ISBN 10: 0128237910 
ISBN 13: 9780128237915
Author: Sanjay Mavinkere Rangappa, Jyotishkumar Parameswaranpillai, Suchart Siengchin, M Ramesh

Biodegradable Polymers, Blends and Composites provides a comprehensive review on recent developments in this very important research field. The book's chapters cover the various types of biodegradable polymers currently available and their composites, with discussions on preparation, properties and applications. Sections cover natural rubber-based polymer blends, soy-protein, cellulose, chitin, starch-based, PLA, PHBV, PCL, PVA, PBAT-based blends, Poly (ethylene succinate), PHB and Poly (propylene carbonates). The book will be a valuable reference resource for academic and industrial researchers, technologists and engineers working on recent developments in the area of biodegradable polymers, their blends and composites.

(Ebook) Biodegradable Polymers Blends and Composites 1st Table of contents:

1. Introduction to biodegradable polymers
1. Introduction
2. Biodegradable polymers
3. Biodegradable polymer blends
4. Conclusion
2. Natural rubber-based polymer blends and composites
1. Introduction
2. Natural rubber-based polymer nanocomposites
3. Application of NR-based polymer nanocomposites
4. Conclusion
3. Soy protein-based polymer blends and composites
1. Introduction
2. Polymer blends and composites
3. Nanofillers as reinforcing agents
4. Fabrication of soy protein-based materials
5. Soy protein-based blends and composites
6. Soy protein-based blends and composites for medical applications
7. Soy protein-based blends and composites for horticultural applications
8. Soy protein-based blends and composites as adhesives
9. Soy protein-based blends and composites as self-healing agents
10. Soy protein-based blends and composites for battery applications
11. Other applications
12. Conclusion
Acknowledgement
4. Extraction and properties of cellulose for polymer composites
1. Introduction
2. Cellulose
3. Nanocellulose
4. Applications
5. Conclusion
5. Cellulose-based blends and composites
1. Introduction
2. Lignocellulose compositions
3. Cellulose composites
4. Summary
6. Chitin and chitosan-based blends and composites
1. Introduction
2. Structure, properties, and applications of chitosan
3. Classification of chitosan-based blends and composites
4. Synthesis of some selected blends and composites of chitosan
5. Conclusions
7. Starch-based blends and composites
1. Introduction
2. Chemical structure of starch
3. Properties of starch
4. Starch-based blends and composites
5. Conclusions
6. Future prospects
8. PLA-based blends and composites
1. Introduction
2. PLA-based composites
3. PLA-based blends
4. Electrospun PLA fiber composite systems
5. Conclusion and future perspectives
9. PHBV based blends and composites
1. Introduction
2. PHBV based blends
3. Fabrication of PHBV composites
4. PHBV based nanocomposites
5. PHBV applications
6. Conclusions
10. PVA-based blends and composites
1. Introduction
2. Chemistry of PVA
3. History of PVA
4. PVA-based blended/cross-linked composites
5. PVA-based blended films
6. PVA-based composites
7. PVA-based cross-linked composites
11. PBAT-based blends and composites
1. Introduction
2. PBAT-based blends and composites
3. Application of PBAT-based blends and composites
4. Conclusion
12. Hydrogel- and aerogel-based composites: Biodegradable hydrogel and aerogel polymer blend-based composites
1. Introduction
2. Lignocellulosic-based hydrogel and aerogel
3. Synthetic-based hydrogel and aerogel
4. Applications
5. Future prospects
6. Conclusion
13. Polyhydroxybutyrate (PHB)-based blends and composites
1. Introduction
2. General properties of PHB
3. Chemical synthesis
4. Biological synthesis
5. Steps involved in PHB production
6. PHB blends
7. PHB-based composites
8. Innovative applications and products
9. Conclusions
14. Active and intelligent biodegradable films and polymers
1. Introduction
2. Active packaging
3. Active ingredients used in active packaging
4. Active films
5. Intelligent packaging
6. Types of intelligent packaging
7. Other types of intelligent packaging
8. Indicators used in intelligent food packaging
9. Types of sensors used in packaging
10. Materials used in the manufacture of sensors
11. Nanotechnology in intelligent packaging
12. Characteristics and properties of nanosensors
13. Classification of nanosensors
15. Biodegradable biosourced epoxy thermosets, blends, and composites
1. Introduction
2. Application prospective: adhesives, coatings, and composites
3. Bio-sourced epoxy resins: chemical modifications and synthesis
4. Bio-epoxy thermoset blends: value-added matrix
5. Bio-epoxy thermoset composites
6. Biodegradability prospective
7. Conclusion
16. Analysis and characterization of starches from alternative sources
1. Introduction
2. Molecular characterization
3. Conclusion
17. Biocomposites potential for nanotechnology
1. Highlights
2. Biocomposites and nanotechnology
3. Nanobiocomposite applications
4. Nanobiocomposites and the food industry
5. Cosmetics applications of nanobiocomposites
6. Nanobiocomposites in biomedical areas
7. Trends and gaps in knowledge
18. Zein-based blends and composites
1. Introduction: chemistry and properties of zein molecules
2. Zein as an ingredient for ecofriendly films
3. Zein as an ingredient for coatings
4. Nanotechnology applications with zein
5. Final considerations
19. Biodegradable polymer blends and composites from renewable resources
1. Introduction
2. Biodegradable polymers and blends
3. Manufacturing of biopolymer blends
4. Biodegradable composites
5. Conclusion and future perspectives
20. Electrically conductive biodegradable polymer blends and composites
1. Introduction
2. Biodegradable polymeric systems, biodegradability, and compatibility
3. Necessity for electrically conducting biodegradable and biocompatible polymeric systems
4. Electrically conducting biodegradable polymeric systems
5. Conclusion
21. Biodegradable polymer blends and composites for biomedical applications
1. Introduction
2. Biodegradable synthetic polymers
3. Preparation of biodegradable synthetic polyesters
4. Biodegradable synthetic thermally cross-linked polyester blends
5. Biodegradable synthetic thermally cross-linked polyester composites
6. Remarks and future directions
22. Biodegradable polymer blends for tissue engineering
1. Introduction
2. Tissue engineering
3. Biomaterials for tissue engineering
4. Biodegradable polymer blends for tissue engineering
5. Conclusion
23. Additive manufacturing with biodegradable polymers
1. Introduction
2. Additive manufacturing
3. Additive manufacturing techniques
4. Biodegradable polymers in additive manufacturing
5. Conclusions
24. Production of biodegradable films and blends from proteins
1. Introduction
2. Protein sources to produce biodegradable films and blends
3. Production of biodegradable films and blends
4. Solution/solvent casting
5. Dry processes (thermomechanical processing)
6. Conclusion and future perspectives
25. Biodegradable polymer blends and composites for food-packaging applications
1. Introduction
2. Biobased polysaccharides
3. Microbial polymers
4. Conclusion
26. Biodegradable polymers and green-based antimicrobial packaging materials
1. Introduction
2. Biodegradable biobased polymers
3. Biodegradable petroleum-based polymers
4. Green packaging antimicrobial agents
5. Conclusion

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Tags: Sanjay Mavinkere Rangappa, Jyotishkumar Parameswaranpillai, Suchart Siengchin, M Ramesh, Biodegradable Polymers, Composites