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Pultrusion. --- Glass-reinforced plastics --- Plastics --- Extrusion

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There is a major lack of fundamental knowledge and understanding on the interaction between a filler and the polymer matrix. When it comes to nanoscale fillers, such as layered silicates, carbon nanotubes, graphene or cellulose nanofibers it is even more important to know accurate structure-property relationships as well as identifying the parameters influencing material behavior. The reason for the lack of knowledge on how to process nanocomposites and why there are so few applications is that several scientific fields are affected and a joint effort of those scientific communities involve

Chemical & Materials Engineering --- Engineering & Applied Sciences --- Materials Science --- Nanocomposites (Materials) --- Polymeric composites. --- Composite polymeric materials --- Polymer-matrix composites --- Reinforced plastics --- Nanocomposite materials --- Nanostructured composite materials --- Nanostructured composites --- Composite materials --- Nanostructured materials

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Manufacturing of Nanocomposites with Engineering Plastics collates recent research findings on the manufacturing, properties, and applications of nanocomposites with engineering plastics in one comprehensive volume. The book specifically examines topics of engineering plastics, rheology, thermo-mechanical properties, wear, flame retardancy, modeling, filler surface modification, and more. It represents a ready reference for managers and scholars working in the areas of polymer and nanocomposite materials science, both in industry and academia, and provides introductory information for people

Nanocomposites (Materials) --- Nanostructured materials. --- Polymer engineering. --- Polymeric composites. --- Composite polymeric materials --- Polymer-matrix composites --- Reinforced plastics --- Polymers --- Chemical engineering --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Nanostructure materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology --- Nanocomposite materials --- Nanostructured composite materials --- Nanostructured composites --- Composite materials --- Nanostructured materials --- Design

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This book contains precisely referenced chapters, emphasizing environment-friendly polymer nanocomposites with basic fundamentals, practicality and alternatives to traditional nanocomposites through detailed reviews of different environmental friendly materials procured from different resources, their synthesis and applications using alternative green approaches. The book aims at explaining basics of eco-friendly polymer nanocomposites from different natural resources and their chemistry along with practical applications which present a future direction in the biomedical, pharmaceutical and automotive industry. The book attempts to present emerging economic and environmentally friendly polymer nanocomposites that are free from side effects studied in the traditional nanocomposites. This book is the outcome of contributions by many experts in the field from different disciplines, with various backgrounds and expertises. This book will appeal to researchers as well as students from different disciplines. The content includes industrial applications and will fill the gap between the research works in laboratory to practical applications in related industries.

Chemistry. --- Polymer Sciences. --- Nanotechnology. --- Materials Engineering. --- Renewable and Green Energy. --- Environmental Engineering/Biotechnology. --- Biomaterials. --- Polymers. --- Renewable energy sources. --- Biotechnology. --- Chimie --- Polymères --- Energies renouvelables --- Biotechnologie --- Nanotechnologie --- Chemistry --- Physical Sciences & Mathematics --- Organic Chemistry --- Nanocomposites (Materials) --- Polymeric composites --- Environmental aspects. --- Data processing. --- Composite polymeric materials --- Polymer-matrix composites --- Nanocomposite materials --- Nanostructured composite materials --- Nanostructured composites --- Renewable energy resources. --- Alternate energy sources. --- Green energy industries. --- Engineering --- Environmental engineering. --- Materials. --- Reinforced plastics --- Composite materials --- Nanostructured materials --- Biocompatible materials --- Biomaterials --- Medical materials --- Medicine --- Biomedical engineering --- Materials --- Biocompatibility --- Prosthesis --- Chemical engineering --- Genetic engineering --- Alternate energy sources --- Alternative energy sources --- Energy sources, Renewable --- Sustainable energy sources --- Power resources --- Renewable natural resources --- Agriculture and energy --- Molecular technology --- Nanoscale technology --- High technology --- Polymere --- Polymeride --- Polymers and polymerization --- Macromolecules --- Polymers  . --- Engineering—Materials. --- Bioartificial materials --- Hemocompatible materials --- Environmental control --- Environmental effects --- Environmental stresses --- Environmental health --- Environmental protection --- Pollution --- Sustainable engineering --- Biomaterials (Biomedical materials)

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This book defines the current state-of-the-art for predicting the lifetime of plastics exposed to weather and outlines future research needed to advance this important field of study. Coverage includes progress in developing new science and test methods to determine how materials respond to weather exposure. This book is ideal for researchers and professionals working in the field of service life prediction. This book also: Examines numerous consensus standards that affect commercial products allowing readers to see the future of standards related to service life prediction Provides the scientific foundation for the latest commercially viable instruments Presents groundbreaking research, including the blueprint of a new test method that will significantly shorten the service life prediction process time Covers two of the latest verified predictive models, which demonstrate realized-potential to transform the field.

Engineering. --- Continuum Mechanics and Mechanics of Materials. --- Tribology, Corrosion and Coatings. --- Physical Chemistry. --- Structural Materials. --- Chemistry, Physical organic. --- Materials. --- Chemistry, inorganic. --- Ingénierie --- Matériaux --- Chemical & Materials Engineering --- Engineering & Applied Sciences --- Applied Mathematics --- Materials Science --- Polymers --- Plastics --- Polymeric composites. --- Research. --- Additives. --- Composite polymeric materials --- Polymer-matrix composites --- Plastic additives --- Physical chemistry. --- Continuum mechanics. --- Structural materials. --- Tribology. --- Corrosion and anti-corrosives. --- Coatings. --- Surface coatings --- Materials --- Surfaces (Technology) --- Coating processes --- Thin films --- Anti-corrosive paint --- Atmospheric corrosion --- Metal corrosion --- Metals --- Rust --- Rustless coatings --- Chemical inhibitors --- Chemistry, Technical --- Fouling --- Weathering --- Paint --- Protective coatings --- Waterproofing --- Friction --- Architectural materials --- Architecture --- Building --- Building supplies --- Buildings --- Construction materials --- Structural materials --- Mechanics of continua --- Elasticity --- Mechanics, Analytic --- Field theory (Physics) --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Chemistry --- Construction --- Industrial arts --- Technology --- Corrosion --- Deterioration --- Surfaces --- Reinforced plastics --- Mechanics. --- Mechanics, Applied. --- Solid Mechanics. --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Chemistry, Physical organic --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Inorganic chemistry --- Inorganic compounds --- Applied mechanics --- Engineering, Mechanical --- Engineering mathematics --- Classical mechanics --- Newtonian mechanics --- Physics --- Dynamics --- Quantum theory