Join over Carbon-Based Nanofillers and their Rubber Nanocomposites: Fundamentals and Applications provides the synthetic routes, characterization, structural properties and effect of nano fillers on rubber nanocomposites. The synthesis and characterization of all carbon-based fillers is discussed, along with their morphological, thermal, mechanical, dynamic mechanical, and rheological properties.
The book also covers the theory, modeling, and simulation aspects of these nanocomposites and their various applications. Users will find a valuable reference source for graduates and post graduates, engineers, research scholars, polymer engineers, polymer technologists, and those working in the biomedical field.
Reviews rubber nanocomposites, specifically carbon-associated nanomaterials nanocarbon black, graphite, graphene, carbon nanotubes, fullerenes, diamond Presents the synthesis and characterization of carbon based nanocomposites Relates the structure of these nanocomposites to their function as rubber additives and their many applications.
The book also covers the. Rubber Nanocomposites: Preparation, Properties and Applications focuses on the preparation, characterization and properties of natural and synthetic rubber nanocomposites. The book carefully debates the preparation of unmodified and modified nanofillers, various manufacturing techniques of rubber nanocomposites, structure, morphology and properties of nanocomposites.
The text reviews the processing; characterization and properties. The book comprehensively covers the different topics of graphene based biopolymer and nanocomposites, mainly synthesis methods for the composite materials, various characterization techniques to study the superior properties and insights on potential advanced applications.
Summarises the practical implications of the development of nanoscale reinforcements for sustainable composite materials made from natural materials Examines matrix and reinforcement materials and their characterisation and reviews key properties such as tensile and dynamic mechanical properties Considers barrier properties, biodegradability, rheology, electrical and thermal conductivity and potential applications.
Not only are they green and sustainable materials, they can also be used to develop a broad range of useful products with special properties, from therapeutics to coatings to packaging materials. With contributions from an international team of leading nanoscientists and materials researchers, this book draws together and reviews the most recent developments and techniques in biopolymer nano-composites.
It describes the preparation, processing, properties, and applications of bio- polymer nanocomposites developed from chitin, starch, and cellulose, three renewable resources. Biopolymer Nanocomposites features a logical organization and approach that make it easy for readers to take full advantage of the latest science and technology in designing these materials and developing new products and applications. It begins with a chapter reviewing our current understanding of bionanocomposites.
Next, the book covers such topics as: Morphological and thermal investigations of chitin-based nanocomposites Applications of starch nanoparticle and starch-based bionanocomposites Spectroscopic characterization of renewable nanoparticles and their composites Nanocellulosic products and their applications Protein-based nanocomposites for food packaging Throughout the book, detailed case studies of industrial applications underscore the unique challenges and opportunities in developing and working with biopolymer nanocomposites.
There are also plenty of figures to help readers fully grasp key concepts and techniques. Exploring the full range of applications, Biopolymer Nanocomposites is recommended for researchers in a broad range of industries and disciplines, including biomedical engineering, materials science, physical chemistry, chemical engineering, and polymer science. All readers will learn how to create green, sustainable products and applications using these tremendously versatile materials.
It covers various aspects of biobased polymers and nanocomposites, including preparation, processing, properties, and performance, and the latest advances in these materials. It also includes recent findings from leading researchers in academia and industry, government, and private research laboratories around the globe, providing the latest information on biobased polymers and nanocomposites.
Offering an overview of the entire production process, it guides readers through all stages, from the raw source materials, processing and property characterization to application performance. This book is suitable for professionals and researchers seeking in-depth practical information as well as the fundamental science behind this. The book carefully debates the preparation of unmodified and modified nanofillers, various manufacturing techniques of rubber nanocomposites, structure, morphology and properties of nanocomposites.
The text reviews the processing; characterization and properties. Available in PDF,. The main goal of the book was to gather current knowledge of recent advances in polymer science and technology, the physical characterization and advanced performance attributes of both synthetic and biological polymeric materials.
The volume covers six broad topics such as rubber science and technology, composites, textiles, adhesive and coatings,. This book presents emerging economical and environmentally friendly polymer composites that are free of the side effects observed in traditional composites.
It focuses on eco-friendly composite materials using granulated cork, a by-product of the cork industry; cellulose pulp from the recycling of paper residues; hemp fibers; and a range of.
This book presents the most recent description of rubber reinforcement, focusing on the network-like structure formation of nanofiller in the rubber matrix under the presence of bound rubber.
The resultant filler network is visualized by electron tomography applied to rubber. In the case of natural rubber, the self-reinforcement effect is. This is an essential resource for academic researchers, scientists and post graduate students in rubber science, polymer science, materials science and engineering, and chemistry. Explains the latest manufacture and processing techniques for natural rubber NR with enhanced properties Explores novel applications of natural rubber across a range of industries, including current and potential uses Discusses resources and utilization, and considers sustainable future development of natural rubber.
The scientific literature with respect to liquid silicone rubbers is collected in this monograph. The text focuses on the fundamental issues such as properties, curing methods, special materials, as well as the latest development and provides a broad overview of the materials used therein. In particular, materials and compositions for liquid functional rubbers are discussed.
Also, methods of curing and special properties are described, such as tracking and erosion resistance, adhesion properties, storage and thermal stability. Methods of curing are precision casting, hybrid additive manufacturing, peroxide curing, ultraviolet curing, liquid injection molding, or hot embossing. The book includes applications including automotive and underwater applications, electrical and optical uses, as well as medical uses.
Globalization and industrialization involve a number of reactions, products, extractions, and separations that require the use of organic solvents. These solvents are responsible for a number of ecological concerns, including atmospheric and land toxicity. Conventional organic solvents are regarded as volatile organic compounds; some are even limited due to their potential for ozone layer depletion. While supercritical liquids exhibit physical properties that could make them ideal substitutes for these volatile compounds, there is particular interest in the use of carbon dioxide as a solvent of crude material.
Thus, the use of supercritical carbon dioxide can provide practical improvements to the sustainability of industrial products and processes. This book provides in-depth literature in the area of industrial green processes, focusing on the separation, purification, and extraction of compounds utilizing supercritical carbon dioxide as a green solvent. Adsorption: Fundamental Processes and Applications, Volume 33 in the Interface Science and Technology Series, discusses the great technological importance of adsorption and describes how adsorbents are used on a large scale as desiccants, catalysts, catalyst supports, in the separation of gases, the purification of liquids, pollution control, and in respiratory protection.
Finally, it explores how adsorption phenomena play a vital role in many solid-state reactions and biological mechanisms, as well as stressing the importance of the widespread use of adsorption techniques in the characterization of surface properties and the texture of fine powders. Covers the fundamental aspects of adsorption process engineering Reviews the environmental impact of key aquatic pollutants Discusses and analyzes the importance of adsorption processes for water treatment Highlights opportunity areas for adsorption process intensification Edited by a world-leading researcher in interface science.
Mineral-filled polymer composites are widely used in industries across the globe, and applications are continuously increasing in sectors such as shipping, manufacturing and renewable energy.
One of two volumes comprising the Mineral-Filled Polymer Composites Handbook, this volume provides an overview of the latest research and future directions of advanced mineral fiber-reinforced polymer composites, focused specifically on materials properties.
It covers fundamentals, recent progress and new materials involved in mineral-filled polymer composites and includes a wide-ranging list of chapters authored by an international team of experts. Including contributions from experts from North America, Europe,and Asia, the book explores the properties of compounds withrubber-clay nanocomposites, including their rheology, curingkinetics, mechanical properties, and many others.
Rubber-clay nanocomposites are of growing interest to thescientific and technological community, and have been shown toimprove rubber compound reinforcement and impermeability. Thesenatural mineral fillers are of potential interest for large-scaleapplications and are already making an impact in several majorfields.
Packed with valuable information about the synthesis,processing, and mechanics of these reinforced rubbers, the bookcovers assorted rubber-clay nanocomposites applications, such as inautomotive tires and as polymer fillers. Promoting common knowledge and interpretation of the mostimportant aspects of rubber-clay nanocomposites, and clarifying themain results achieved in the field of rubbers and crosslinkedrubbers—something not covered in other books in thefield—Rubber-Clay Nanocomposites helps scientistsunderstand morphology, vulcanization, permeability, processingmethods, and characterization factors quickly and easily.
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