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This new volume focuses on polymers, their characterization, and
their various applications. These include drug delivery
applications, electromagnetic shielding, ferroelectric
applications, and many more. The book covers synthesis,
characterization, and property studies of some of these polymers
including their morphology, structure, and dynamics. It also
introduces the most recent innovations and applications of
polymers, fillers, and their composites in the electronics,
biomedical, pharmaceutical, and engineering industries. Topics also
include ferroelectric ceramics and the numerous polymers used for
radiation shielding applications. The bottleneck in the development
of novel technologies is often defined by the limitations of the
available materials. Polymer science, for instance, has lately made
large steps towards innovative materials and processes. Polymeric
materials are ideal examples of structural and functional materials
because of their versatility in practically all areas of modern
life and technology. Some of their outstanding properties are high
elasticity, stiffness, toughness, strength, good thermal
resistance, and high chemical stability. This volume, Advances in
Diverse Applications of Polymer Composites: Synthesis, Application,
and Characterization, provides important information that will be
valuable for researchers, postgraduate students, professors, and
instructors working in the field of polymers.
This important book is an overall analysis of different innovative
methods and ways of recycling in connection with various types of
materials. It aims to provide a basic understanding about polymer
recycling and its reuse as well as presents an in-depth look at
various recycling methods. It provides a thorough knowledge about
the work being done in recycling in different parts of the world
and throws light on areas that need to be further explored.
Emphasizing eco-friendly methods and recovery of useful materials
The book covers a wide variety of innovative recycling methods and
research, including * Green methods of recycling * Effective
conversion of biomass and municipal wastes to energy-generating
systems * A catalyst for the reuse of glycerol byproduct * Methods
of adsorption to treat wastewater and make it suitable for
irrigation and other purposes * Disposal of sludge * The use of
calcined clay to replace both fine and coarse aggregates *
Recycling of rubbers * The production of a sorbent material for
paper mill sludge * Replacing polypropylene absorbent in oil spill
sanitations * The use of natural fibers for various industrial
applications * Cashew nut shell liquid as a source of surface
active reagents * Integrated power and cooling systems based on
biomass * Recycling water from household laundering * much more
Recent years have witnessed the sheer growth of macromolecular
concepts and nanotechnology-based innovations in polymer science.
Processing and Characterization of Multicomponent Polymer Systems
is a collection of contributions from materials science experts
across the globe. The fabrication and characterization of polymeric
systems are still important in the study of materials science, and
the quality measurements of newly designed polymeric stuffs demand
systematic and new characterization protocols. The volume
highlights some of the latest innovations and principles of
nanostructured polymeric materials and polymer nanocomposites. It
is devoted to novel architectures at the nano-level with an
emphasis on new synthesis and characterization methods. Organized
into several sections, the chapters cover a selection of topics on:
Biocomposites and nanocomposites Interpenetrating polymeric
networks and nanostructured materials Theoretical protocols for
polymers and clusters Special topics in polymer processing and
polymer coating. This survey will be an important resource for
those involved in the field of polymer materials design for
advanced technologies, including scientists, engineers, and budding
researchers working in the area of polymer science and
nanotechnology.
Recent years have witnessed the sheer growth of macromolecular
concepts and nanotechnology-based innovations in polymer science.
Processing and Characterization of Multicomponent Polymer Systems
is a collection of contributions from materials science experts
across the globe. The fabrication and characterization of polymeric
systems are still important in the study of materials science, and
the quality measurements of newly designed polymeric stuffs demand
systematic and new characterization protocols. The volume
highlights some of the latest innovations and principles of
nanostructured polymeric materials and polymer nanocomposites. It
is devoted to novel architectures at the nano-level with an
emphasis on new synthesis and characterization methods. Organized
into several sections, the chapters cover a selection of topics on:
Biocomposites and nanocomposites Interpenetrating polymeric
networks and nanostructured materials Theoretical protocols for
polymers and clusters Special topics in polymer processing and
polymer coating. This survey will be an important resource for
those involved in the field of polymer materials design for
advanced technologies, including scientists, engineers, and budding
researchers working in the area of polymer science and
nanotechnology.
This important book is an overall analysis of different innovative
methods and ways of recycling in connection with various types of
materials. It aims to provide a basic understanding about polymer
recycling and its reuse as well as presents an in-depth look at
various recycling methods. It provides a thorough knowledge about
the work being done in recycling in different parts of the world
and throws light on areas that need to be further explored.
Emphasizing eco-friendly methods and recovery of useful materials
The book covers a wide variety of innovative recycling methods and
research, including * Green methods of recycling * Effective
conversion of biomass and municipal wastes to energy-generating
systems * A catalyst for the reuse of glycerol byproduct * Methods
of adsorption to treat wastewater and make it suitable for
irrigation and other purposes * Disposal of sludge * The use of
calcined clay to replace both fine and coarse aggregates *
Recycling of rubbers * The production of a sorbent material for
paper mill sludge * Replacing polypropylene absorbent in oil spill
sanitations * The use of natural fibers for various industrial
applications * Cashew nut shell liquid as a source of surface
active reagents * Integrated power and cooling systems based on
biomass * Recycling water from household laundering * much more
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