Single-Polymer Composites

 
 
CRC Press
  • 1. Auflage
  • |
  • erschienen am 21. September 2018
  • |
  • 268 Seiten
 
E-Book | ePUB mit Adobe DRM | Systemvoraussetzungen
978-1-351-27222-3 (ISBN)
 

This book discusses the concept of single polymer composites (SPCs), their preparation, and properties and the main factors which affect the manufacturing of this class of composites. It deals with the leading classes of polymers, chapter wise, which have been majorly explored for manufacturing SPCs - polyolefins, polyesters, polyamides, and LCPs - includes a case study on manufacturing of SPCs, and devotes three chapters to detailed analyses of research on all-cellulose composites. Addressing the concerns of the researchers, it also answers intriguing questions in the field of SPCs with pointers to the right references.

Key Features

    • Presents a summary of single polymer composites based on various polymers

    • Includes mechanical and thermal properties of single polymer composites

    • Reviews detailed view of eco-friendly approaches to composites

    • Offers a special focus on all-cellulose composites

    • Supports concepts with figures, schemes, and tables

    1. Auflage
    • Englisch
    • London
    • |
    • Großbritannien
    Taylor & Francis Ltd
    • Für höhere Schule und Studium
    120 schwarz-weiße Abbildungen
    • 10,90 MB
    978-1-351-27222-3 (9781351272223)
    weitere Ausgaben werden ermittelt

    Dr. Samrat Mukhopadhyay is an Associate Professor at the Department of Textile Technology, Indian Institute of Technology (IIT), Delhi. A gold medalist from the University of Kolkata, he subsequently did his Masters and PhD from IIT Delhi. He worked with Arvind Mills, Ahmedabad, had been teaching in various colleges in India and was with the Fibrous Materials Research Group, University of Minho, Portugal as a Post-Doctoral Scientist with the prestigious FCT grant before joining the Department. He has been working with synthetic and natural fibers, fiber reinforced composites and concrete systems, sustainable approaches in textile chemistry, color science and technological interventions in handloom sector. Presently he is part of research groups working on clothing for extreme weather protection funded by Defence Research and Development Organization (DRDO), Government of India. He is also working with Design Innovation grants, Ministry of Human Resource Development (MHRD). He is involved in projects with joint funding from industry and Government of India for developing practical solutions for industry under the Uchhatar Abhiskar Yojana (UAY).

    He has been working with single polymer composites for the last two decades. Part of his Phd work was using polypropylene filaments in single polymer composites. He was the Principal Investigator of a project sponsored by GAIL, Government of India, on development of high impact structures from single-polymer composites from HDPE. The project was successfully executed and has been funded for second stage of execution jointly with Indian Institute of Packaging, Government of India for developing prototypes. He has also worked on all-cellulose composites systems jointly with the co-author.

    Bapan Adak obtained B.Tech degree in 2010 from Govt. College of Engineering and Textile Technology, Serampore (West Bengal, India) in Textile Engineering. During his B.Tech, he worked on 'Dyeing of silk with natural coloring matters with or without mordants' and published his work in a reputed textile journal. In 2010, he joined in Arvind Ltd, Gujarat, India and continued his work for three years as manufacturing manager. In 2013, he started M.Tech in Fibre Science and Technology from Department of Textile Technology, Indian Institute of Technology Delhi, India and received his M.Tech degree in 2015. During M.Tech, he worked on cellulose based single-polymer composites popularly termed as - 'All-cellulose composites'. He has published several papers in reputed journals from his M.Tech research work. Currently, he is doing Ph.D from Department of Textile Technology, Indian Institute of Technology Delhi, India. His PhD topic is related to 'Studies on high gas barrier and weather resistant polyurethane nanocomposite films and laminates', which is a part of an ongoing project sponsored by Aerial Delivery Research & Development Establishment (ADRDE, Agra), Defence Research and Development Organization (DRDO, India).

    Chapter 1. Single Polymer Composites - General considerations

    1.1 Introduction

    1.2 Initial research

    1.3 General considerations for single polymer composite

    1.4. Concluding remarks

    References

    Chapter 2: Transcrystallinity in Single polymer composites

    2.1 Introduction

    2.2. Causes of transcrystallinity

    2.3. Effect of fiber introduction temperature

    2.4 Effect of process variables

    2.5 Effect of change in nature of surface

    2.6 Effect of matrix morphology

    2.7 Effect of transcrystallinity on composite properties

    2.8. Concluding remarks

    References

    Chapter 3: Single polymer composites from Polyolefines

    3.1 Introduction

    3.2 Single polymer composites with varying starting material based on PE

    3.3 Single polymer composites from polypropylene

    3.4. Comparative analyses and concluding remarks

    References

    Chapter 4: Single polymer composites from polyamides

    4.1 Introduction

    4.2 Single polymer composites from nylons based on routes of manufacturing

    4.3 Comparative analyses and concluding remarks

    Reference

    Chapter 5: Single polymer composites from Polyesters

    5.1 Introduction

    5.2 Single polymer composites from different starting materials

    5.3 Comparative analyses and conclusions

    References

    Chapter 6: PLA based single polymer composites

    6.1. Introduction

    6.2. PLA self reinforced composites based on composite manufacturing

    6.4. Application of PLA self reinforced composites

    6.5. Comparative analyses and concluding remarks

    References

    Chapter 7: All-cellulose Composite: Concepts, raw materials, synthesis, phase characterization and structure analysis

    7.1. Introduction

    7.2. Cellulose: chemistry and overview

    7.3. Sources of cellulose

    7.4. Pros and cons of cellulosic materials for making biocomposites

    7.5. Basic concepts of All-Cellulose composites (ACCs)

    7.6. Classification of all-cellulose composites

    7.7. Different forms of cellulosic materials to prepare ACCs

    7.8. Manufacturing of non-derivatized all-cellulose composites

    7.9. Synthesis of ACCs and different processing routes

    7.10 Phase-characterization of cellulose in all-cellulose composites

    7.11. Microstructural analysis of different ACCs

    7.12. Conclusion

    Reference

    Chapter 8: Properties of non-derivatized all-Cellulose Composites

    8.1. Introduction

    8.2. Mechanical properties

    8.3. Viscoelastic and thermal properties of ACCs

    8.4. Optical transparency of ACCs

    8.5. Other miscellaneous properties of ACCs

    8.6. Biodegradability of ACCs

    8.7. Conclusion

    Reference

    Chapter 9: Derivatized all-cellulose composites

    9.1. Introduction

    9.2. Derivatizing solvents

    9.3. Philosophy of making DACCs

    9.4. Different types of DACC

    9.5. Benzylated cellulose based DACCs

    9.6. Esterified cellulose based DACCs

    9.7. Oxypropylated cellulose based DACCs

    9.8. Carbamated cellulose based DACCs

    9.9. Synthesis and properties of DACC produced by TEMPO-mediated oxidation

    9.10. Comparison of mechanical properties: non-derivatized ACC vs DACC

    9.11. Synthesis and properties of ACC fibres or nanofibres

    9.12. Thermoset DACC

    9.13. Conclusion

    Reference

    Chapter 10: Applications, Current Difficulties and Future Scopes of Single-Polymer Composites

    10.1. Introduction

    10.2. Probable applications of SPCs

    10.3. Current difficulties, major challenges and future scopes of SRCs

    10.4. Conclusion

    References

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