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Elastomeric Nanocellulose Composites

Thomas Sabu Mohamed, P. K. Kim Jaehwan Se alle
Heftet / 2024 / Engelsk

Produktdetaljer

ISBN
9780443186080
Publisert
2024-01-17
Utgiver
Elsevier - Health Sciences Division
Vekt
1000 gr
Høyde
229 mm
Bredde
152 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
596

Redaktør
Thomas Sabu
Mohamed, P. K.
Kim Jaehwan
Tom, Milanta

Biografisk notat

Sabu Thomas is a Professor and Director of the International and Interuniversity Centre for Nanoscience and Nanotechnology, Mahatma Gandhi University, Kerala, India. Professor Thomas is internationally recognized for his contributions to polymer science and engineering, with his research interests encompassing polymer nanocomposites, elastomers, polymer blends, interpenetrating polymer networks, polymer membranes, green composites, nanocomposites, nanomedicine, and green nanotechnology. His groundbreaking inventions in polymer nanocomposites, polymer blends, green bionanotechnology, and nano-biomedical sciences have significantly advanced the development of new materials for the automotive, space, housing, and biomedical fields. P.K. Mohamed is Chief Advisor of Research and Technology of Apollo Tyres Ltd. He is directly responsible for all R&D activities of CV tyres, which includes Raw Materials, TBR, TBB, and OHT (Radial & bias) of the company. Mohamed is a Fellow member of the Rubber and Plastic Institute London, a member of the Management Board of Apollo Tyres Ltd, Industrial Advisory board of CenTire, IRCO, and Area Director of American Chemical Society, Rubber Division. Mohamed is the former Chairman of the Indian Tyre Technical Advisory Committee (ITTAC) and Indian Rubber Institute. Jaehwan Kim serves as an Inha Fellow Professor at the Department of Mechanical Engineering at Inha University, Korea. He is also designated as Director of CRC for NanoCellulose Future Composites. Dr. Kim is a Fellow of The Korean Academy of Science and Technology, the National Academy of Engineering of Korea, and the Institute of Physics. He is an Associate Editor of Smart Materials and Structure as well as Smart Nanosystems in Engineering and Medicine and Editor of International Journal of Precision Manufacturing and Engineering, Helyon and Actuators. He has been the Director of Creative Research Center for EAPap Actuator funded by the National Research Foundation of Korea (NRF). Recently, he started the Creative Research Center for Nanocellulose Future Composites, sponsored by NRF. His research interests are smart materials, structures and devices, biomaterial-based smart materials, cellulose, electroactive polymers, power harvesting, biomimetic actuators, biosensors, tactile sensors, and flexible electronics. He has published more than 320 journal papers, presented 360 international conference papers, and filed more than 40 patents. Milanta Tom is a Polymer Engineer with an interest in research and development in material science specifically polymer science, with comprehensive knowledge of polymer synthesis, processing techniques, characterization, fabrication processes, and product validation processes.

Elastomeric Nanocellulose Composites

Thomas Sabu Mohamed, P. K. Kim Jaehwan Se alle
Heftet / 2024 / Engelsk
Thomas Sabu Mohamed, P. K. Kim Jaehwan Se alle
Heftet / 2024 / Engelsk
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Elastomeric Nanocellulose Composites provides an in-depth study of recent developments in this fast-evolving research field. This book covers diverse aspects of materials engineering, surface treatments, and fabrication of green nanocomposites. It consolidates recent studies and qualitative findings on the incorporation of a myriad of nanocellulose variants into various types of elastomer matrices with the main goal of enhancing its mechanical integrity and potentially phasing out conventional elastomer fillers. The current market is likewise discussed in detail. This book will provide an in-depth study of current developments of nanocellulose incorporated elastomer composites and their applications. The book will be an essential reference resource for material scientists, academic and industrial researchers, and technologists covering all aspects in the field. Carbon black and silica are currently used as fillers in elastomer-based composites, but the use of these reinforcing agents is not sustainable or eco-friendly. Therefore there is a need to look for more sustainable filler materials for elastomers.
Les mer
1 Nanocellulose elastomer composites—an introduction, history and state of art 2 Extraction of nanocellulose—mechanical and chemical approaches 3 Modifications and characterization of nanocellulose 4 Electrospinning of nanocellulose 5 Nanocellulose-based filaments: production, characterization, and Applications 6 Manufacturing techniques of elastomeric nanocellulose Composites 7 Curing characteristics and scorch behavior of nanocellulose elastomer composites 8 Interfacial interaction, mechanisms of reinforcement and Characterization 9 Nanocellulose as a reinforcing filler in natural rubber composites 10 Nanocellulose reinforced general and special purpose elastomers 11 Nanocellulose filler in synthetic and bio-based thermoplastic Elastomers 12 Nonlinear viscoelasticity and Payne effect of nanocellulose reinforced elastomer composites 13 Influence of nanocellulose filler on mechanical properties and fracture mechanism of elastomer composites 14 Spectroscopic analysis of nanocellulose composites 15 Rheological behavior of nanocellulose suspensions and nanocellulose reinforced composites 16 Microscopic analysis of nanocellulose elastomer composites 17 Characterization of nanocellulose elastomer composites using dynamic mechanical analysis 18 Diffusion, transport mechanism and barrier properties of nanocellulose-reinforced elastomer composites 19 Tribological behavior of nanocellulose/carbon-based filled elastomer composites 20 Creep and stress relaxation behavior of rubber nanocellulose Composites 21 The role of elastomeric nanocellulose composites in the tire Industry 22 Applications of elastomeric nanocellulose composites in flexible electronic devices 23 Biomedical applications of elastomeric nanocellulose composites 24 Life cycle assessment from laboratory to industrial scale—case of elastomeric composite development
Les mer
Focuses on the use of renewable, eco-friendly, and cost-effective nanocellulose as green fillers in elastomer composites
Assists readers in solving fundamental and application-related problems in the development of nanocellulose filled elastomers Discusses characterization techniques used for analyzing elastomer nanocomposites Provides various attributes of nanocellulose, its composites with different types of elastomeric materials (both natural and synthetic) and its potential for advanced applications Includes comprehensive, well structured content to maintain consistency and flow to help readers easily navigate chapters
Les mer

Relaterte produkter

Elastomeric Nanocellulose Composites provides an in-depth study of recent developments in this fast-evolving research field. This book covers diverse aspects of materials engineering, surface treatments, and fabrication of green nanocomposites. It consolidates recent studies and qualitative findings on the incorporation of a myriad of nanocellulose variants into various types of elastomer matrices with the main goal of enhancing its mechanical integrity and potentially phasing out conventional elastomer fillers. The current market is likewise discussed in detail. This book will provide an in-depth study of current developments of nanocellulose incorporated elastomer composites and their applications. The book will be an essential reference resource for material scientists, academic and industrial researchers, and technologists covering all aspects in the field. Carbon black and silica are currently used as fillers in elastomer-based composites, but the use of these reinforcing agents is not sustainable or eco-friendly. Therefore there is a need to look for more sustainable filler materials for elastomers.
Les mer
1 Nanocellulose elastomer composites—an introduction, history and state of art 2 Extraction of nanocellulose—mechanical and chemical approaches 3 Modifications and characterization of nanocellulose 4 Electrospinning of nanocellulose 5 Nanocellulose-based filaments: production, characterization, and Applications 6 Manufacturing techniques of elastomeric nanocellulose Composites 7 Curing characteristics and scorch behavior of nanocellulose elastomer composites 8 Interfacial interaction, mechanisms of reinforcement and Characterization 9 Nanocellulose as a reinforcing filler in natural rubber composites 10 Nanocellulose reinforced general and special purpose elastomers 11 Nanocellulose filler in synthetic and bio-based thermoplastic Elastomers 12 Nonlinear viscoelasticity and Payne effect of nanocellulose reinforced elastomer composites 13 Influence of nanocellulose filler on mechanical properties and fracture mechanism of elastomer composites 14 Spectroscopic analysis of nanocellulose composites 15 Rheological behavior of nanocellulose suspensions and nanocellulose reinforced composites 16 Microscopic analysis of nanocellulose elastomer composites 17 Characterization of nanocellulose elastomer composites using dynamic mechanical analysis 18 Diffusion, transport mechanism and barrier properties of nanocellulose-reinforced elastomer composites 19 Tribological behavior of nanocellulose/carbon-based filled elastomer composites 20 Creep and stress relaxation behavior of rubber nanocellulose Composites 21 The role of elastomeric nanocellulose composites in the tire Industry 22 Applications of elastomeric nanocellulose composites in flexible electronic devices 23 Biomedical applications of elastomeric nanocellulose composites 24 Life cycle assessment from laboratory to industrial scale—case of elastomeric composite development
Les mer
Focuses on the use of renewable, eco-friendly, and cost-effective nanocellulose as green fillers in elastomer composites
Assists readers in solving fundamental and application-related problems in the development of nanocellulose filled elastomers Discusses characterization techniques used for analyzing elastomer nanocomposites Provides various attributes of nanocellulose, its composites with different types of elastomeric materials (both natural and synthetic) and its potential for advanced applications Includes comprehensive, well structured content to maintain consistency and flow to help readers easily navigate chapters
Les mer

Produktdetaljer

ISBN
9780443186080
Publisert
2024-01-17
Utgiver
Elsevier - Health Sciences Division
Vekt
1000 gr
Høyde
229 mm
Bredde
152 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
596

Redaktør
Thomas Sabu
Mohamed, P. K.
Kim Jaehwan
Tom, Milanta

Biografisk notat

Sabu Thomas is a Professor and Director of the International and Interuniversity Centre for Nanoscience and Nanotechnology, Mahatma Gandhi University, Kerala, India. Professor Thomas is internationally recognized for his contributions to polymer science and engineering, with his research interests encompassing polymer nanocomposites, elastomers, polymer blends, interpenetrating polymer networks, polymer membranes, green composites, nanocomposites, nanomedicine, and green nanotechnology. His groundbreaking inventions in polymer nanocomposites, polymer blends, green bionanotechnology, and nano-biomedical sciences have significantly advanced the development of new materials for the automotive, space, housing, and biomedical fields. P.K. Mohamed is Chief Advisor of Research and Technology of Apollo Tyres Ltd. He is directly responsible for all R&D activities of CV tyres, which includes Raw Materials, TBR, TBB, and OHT (Radial & bias) of the company. Mohamed is a Fellow member of the Rubber and Plastic Institute London, a member of the Management Board of Apollo Tyres Ltd, Industrial Advisory board of CenTire, IRCO, and Area Director of American Chemical Society, Rubber Division. Mohamed is the former Chairman of the Indian Tyre Technical Advisory Committee (ITTAC) and Indian Rubber Institute. Jaehwan Kim serves as an Inha Fellow Professor at the Department of Mechanical Engineering at Inha University, Korea. He is also designated as Director of CRC for NanoCellulose Future Composites. Dr. Kim is a Fellow of The Korean Academy of Science and Technology, the National Academy of Engineering of Korea, and the Institute of Physics. He is an Associate Editor of Smart Materials and Structure as well as Smart Nanosystems in Engineering and Medicine and Editor of International Journal of Precision Manufacturing and Engineering, Helyon and Actuators. He has been the Director of Creative Research Center for EAPap Actuator funded by the National Research Foundation of Korea (NRF). Recently, he started the Creative Research Center for Nanocellulose Future Composites, sponsored by NRF. His research interests are smart materials, structures and devices, biomaterial-based smart materials, cellulose, electroactive polymers, power harvesting, biomimetic actuators, biosensors, tactile sensors, and flexible electronics. He has published more than 320 journal papers, presented 360 international conference papers, and filed more than 40 patents. Milanta Tom is a Polymer Engineer with an interest in research and development in material science specifically polymer science, with comprehensive knowledge of polymer synthesis, processing techniques, characterization, fabrication processes, and product validation processes.

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