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Nanoparticle-Based Polymer Composites
- 1st Edition - July 15, 2022
- Editors: Sanjay Mavinkere Rangappa, Jyotishkumar Parameswaranpillai, Yashas Gowda T G, Suchart Siengchin, M. Ozgur Seydibeyoglu
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 8 2 4 2 7 2 - 8
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 8 5 3 2 9 - 3
Nanoparticle-Based Polymer Composites discusses recent advancements on the synthesis, processing, characterization and applications of this new class of hybrid materials. Chapte… Read more
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Request a sales quoteStudies have shown that incorporating metal nanoparticles in polymer matrices can improve their mechanical, thermal, electrical and barrier properties. The unique combination of these properties makes this new class of materials suitable for a broad range of different and advanced applications.
- Features recent advancements on the synthesis, processing and characterization of nanoparticle-based polymer composites
- Discusses recycling and lifecycle assessment
- Highly application-orientated, with contributions from leading international researchers in industry, academia, the government and private research institutes
- Cover image
- Title page
- Table of Contents
- Copyright
- Contributors
- 1: Introduction to nanoparticle-based materials and their composites
- Abstract
- 1.1: Introduction
- 1.2: Classification of nanoparticles
- 1.3: Nanoparticles composites
- 1.4: Applications
- 1.5: Current trend
- 1.6: Conclusion
- References
- 2: Classification and properties of nanoparticles
- Abstract
- 2.1: Introduction
- 2.2: Classification of nanoparticles
- 2.3: Different properties of nanoparticles
- 2.4: Properties of metallic nanoparticles
- 2.5: Properties of semiconductor nanoparticles
- 2.6: Properties of carbon-based nanoparticles
- 2.7: Properties of ceramic nanoparticles
- 2.8: Properties of organic nanoparticles
- 2.9: Conclusions
- References
- 3: Preparation of nanoparticle-based polymer composites
- Abstract
- 3.1: Introduction
- 3.2: Raw material
- 3.3: Preparation of nanoparticle-based polymer composites
- 3.4: Challenges in composite preparation
- 3.5: Conclusions
- References
- 4: Mechanical properties of nanoparticle-based polymer composites
- Abstract
- 4.1: Introduction
- 4.2: Mechanical behavior of nanoparticle-reinforced polymer composites
- 4.3: Mechanical properties of nanoparticle-reinforced polymer composites
- 4.4: Conclusion
- References
- 5: Rheology of nanocomposites
- Abstract
- 5.1: Introduction
- 5.2: Rheology of multiphase systems
- 5.3: Studies on rheology
- 5.4: Rheology of polymer nanocomposites
- 5.5: Measurement techniques, measurement methods, steady shear measurements
- 5.6: Dynamic shear measurements, dynamic shear evaluations
- 5.7: Conclusion
- References
- 6: Thermal properties of nanoparticle-based polymer composites
- Abstract
- 6.1: Introduction
- 6.2: Thermal properties of polymer composites filled with carbon materials
- 6.3: Carbon nanofiber (CNF)
- 6.4: Carbon nanotube (CNT)
- 6.5: Fullerene
- 6.6: Conclusions and future prospects
- References
- 7: Morphology of nanoparticle-based polymer composites
- Abstract
- 7.1: Introduction
- 7.2: Clay-based nanocomposites
- 7.3: CNT-based nanocomposites
- 7.4: Nanocomposites with spherical/rod shaped NPs
- 7.5: Processing conditions
- 7.6: Block-co-polymer based composites
- 7.7: Outlook and summary
- References
- 8: Scattering and spectroscopy studies of nanoparticles-based polymer composites
- Abstract
- 8.1: Introduction
- 8.2: Role of scattering and spectroscopic techniques in characterization
- 8.3: Scattering techniques used in nanoparticle based polymer composite
- 8.4: Spectroscopic techniques used in nanoparticle based polymer composite characterization
- 8.5: Conclusion
- References
- 9: Electrical and dielectric properties of nanoparticles-based polymer composites
- Abstract
- 9.1: Introduction
- 9.2: Electrical properties
- 9.3: Dielectric properties
- 9.4: Conclusions and future scope
- References
- 10: Barrier properties of nanoparticle-based polymer composites
- Abstract
- Acknowledgments
- 10.1: Introduction
- 10.2: Definition, classification, and processing methods of nanoparticles
- 10.3: Definition, classification, and characteristics of polymeric composites
- 10.4: Effect of nanoparticles on the properties of composites
- 10.5: Conclusion and future perspectives
- References
- 11: Applications, drawbacks, and future scope of nanoparticle-based polymer composites
- Abstract
- 11.1: Introduction
- 11.2: Nanoparticle-based biodegradable polymer composites
- 11.3: Applications of polymer nanocomposites
- 11.4: Summary and outlook
- References
- 12: Ion conduction mechanism of nanoparticle-based polymer composites
- Abstract
- Acknowledgment
- 12.1: Introduction
- 12.2: Ion conduction in polymer composite and superionic materials
- 12.3: Material characterization techniques
- 12.4: Some important ion transport parameters
- References
- 13: Clay nanoparticle-incorporated in situ polymer composites
- Abstract
- Acknowledgment
- 13.1: Introduction
- 13.2: Types of in situ polymer clay nanocomposites (PCNs)
- 13.3: Synthesis of in situ nanocomposites
- 13.4: Properties of in situ PCN
- 13.5: Self-assembly of in situ PCNs
- 13.6: Applications of in situ PCNs
- 13.7: Conclusions and perspectives for future work
- References
- 14: Synthetic and natural inorganic layered materials as functional fillers in polymer nanocomposites: Current and potential uses
- Abstract
- Acknowledgments
- 14.1: Introduction
- 14.2: Layered materials structures
- 14.3: Nanocomposites using layered materials as fillers
- 14.4: Properties and potential applications of layered materials/polymer nanocomposites filled with different layered materials
- 14.5: Future perspectives
- 14.6: Conclusion
- References
- 15: Conducting polymers and their composites with different nanoparticles
- Abstract
- 15.1: Introduction
- 15.2: Typical conducting polymer (CP) matrixes
- 15.3: Synthesis of CP nanocomposites
- 15.4: Summary
- 15.5: Conclusion
- References
- 16: Antiviral behavior of metal oxide-reinforced polymer nanocomposites
- Abstract
- 16.1: Introduction
- 16.2: Classification of nanocomposites
- 16.3: Polymers used in polymer matrix nanocomposites
- 16.4: Nanofillers used as reinforcement in polymer matrix nanocomposites
- 16.5: Application of polymer matrix nanocomposites
- 16.6: Polymer matrix nanocomposites processing techniques
- 16.7: Properties of polymer matrix nanocomposites
- 16.8: Green and sustainable polymer nanocomposites
- 16.9: Antiviral behavior of some metal oxide-reinforced polymer nanocomposites
- 16.10: Conclusions
- References
- 17: Methods of nanoparticle dispersion in the polymer matrix
- Abstract
- 17.1: Introduction
- 17.2: Classification of dispersion methods
- References
- 18: Industrial applications of MXene nanocomposites
- Abstract
- Acknowledgments
- 18.1: Introduction
- 18.2: Synthesis of MXenes
- 18.3: Properties
- 18.4: MXene composites
- 18.5: Applications
- 18.6: Conclusion and prospects
- References
- 19: D0 carbon nanoparticles: Carbon nanodots and graphene oxide quantum dots
- Abstract
- 19.1: Experimental section
- 19.2: Results and discussion
- 19.3: Conclusions
- References
- Index
- No. of pages: 550
- Language: English
- Edition: 1
- Published: July 15, 2022
- Imprint: Woodhead Publishing
- Paperback ISBN: 9780128242728
- eBook ISBN: 9780323853293
SR
Sanjay Mavinkere Rangappa
Dr. Sanjay Mavinkere Rangappa, is currently working as a Senior Research Scientist/Associate Professor and also 'Advisor within the office of the President for University Promotion and Development towards International goals' at King Mongkut’s University of Technology North Bangkok, Bangkok, Thailand. He received the B.Eng (Mechanical Engineering) in the year 2010, M.Tech (Computational Analysis in Mechanical Sciences) in the year 2013, Ph.D (Faculty of Mechanical Engineering Science) from Visvesvaraya Technological University, Belagavi, India in the year 2018 and Post Doctorate from King Mongkut's University of Technology North Bangkok, Thailand, in the year 2019. He is a Life Member of Indian Society for Technical Education (ISTE) and an Associate Member of Institute of Engineers (India). He is an Associate Editor of Heliyon Elsevier (Materials Science) and Frontier Materials Journals. Also acting as a Board Member of various international journals in the fields of materials science and composites. He is a reviewer for more than 180 International Journals also a reviewer for book proposals, and international conferences. In addition, he has published more than 300 articles in high-quality international peer-reviewed journals indexed by SCI/Scopus, 10 editorial corners, 70 book chapters, one book, 37 books as an Editor (Published by lead publishers such as Elsevier, Springer, Taylor & Francis, Wiley), and also presented research papers at national/international conferences. Engineering, Thailand).
JP
Jyotishkumar Parameswaranpillai
YG
Yashas Gowda T G
Dr.Yashas Gowda. T G. received his Bachelor's degree in Mechanical Engineering from Malnad College of Engineering in the year 2014 and received his M.Tech (Machine Design) from SJB Institute of Technology, under Visvesvaraya Technological University, Belagavi, India in the year 2016. He obtained a Ph.D. degree from King Mongkut’s University of Technology North Bangkok (KMUTNB). He is working as an Assistant Professor in the Department of Mechanical Engineering, Malnad College of Engineering, Hassan. He has published more than 25 articles in high-quality international peer-reviewed journals, 9 book Chapters, 1 book (Editor), and presented research papers at national/international conferences. Also, He has worked as an organization committee member for 3 International Conferences organized by the Department of Mechanical Engineering, Malnad College of Engineering, Hassan.His current research areas include Natural fiber composites, Tribology of Composite Materials and Polymer composites. He is recognized by Stanford University’s list of the world’s Top 2% of the Most-Cited Scientists in Single Year Citation Impact 2022.
SS
Suchart Siengchin
MS