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Elsevier

Books in Polymer science and technology

Focusing on polymer synthesis, characterization, and applications, this collection supports chemists, materials scientists, and engineers. It features innovations in biodegradable polymers, nanocomposites, and manufacturing processes that advance sustainable and high-performance materials.

  • Predictive Modeling in Polymer Science

    Properties and Performance
    • 1st Edition
    • Mohammad Hossein Keshavarz
    • English
    Predictive Modeling in Polymer Science: Properties and Performance introduces the latest methods for predicting polymer properties and addressing cost-effectiveness and desirable properties for product design and production. The book discusses a range of prediction methods and models, providing a comprehensive overview of polymer behaviors and properties essential for material performance, such as flammability properties, solubility, intrinsic viscosity, glass transition temperatures, and refractive index. Readers will gain a deep understanding of predictive modeling techniques that enable the design of polymers with desired properties, saving time and resources. This book provides a comprehensive guide for scientists, engineers, and industry professionals interested on predicting and optimizing polymer properties for material design.

  • Polymer-Based Nanostructured Barrier Materials

    • 1st Edition
    • V. Prajitha + 2 more
    • English
    Polymer-Based Nanostructured Barrier Materials offers an in-depth exploration into the latest advancements in nanostructured barrier technologies. The book covers a range of topics including processing, characterization, and applications, with a focus on polymeric materials utilized in barrier contexts. It details thermoplastics, thermoset polymers, elastomers, specialty elastomers, and biopolymers. The book delves into barrier mechanisms, testing standards, theoretical modeling, simulation, and industrial requirements for nanostructured barrier materials in packaging. It also addresses preparation for specific properties and applications such as edible packaging, active and intelligent packaging, corrosion protection, tire engineering, environmental remediation, and other novel uses.This comprehensive resource is aimed at researchers, advanced students, industrial scientists, engineers, and R&D professionals interested in barrier and nanomaterials.

  • Cellulose Science and Technology

    Recent Findings and Emerging Applications
    • 1st Edition
    • Majid Montazer + 1 more
    • English
    Cellulose Science and Technology: Recent Findings and Emerging Applications presents the latest research in cellulose materials, including properties, synthesis, characterization, and applications. The book begins with an overview of developments in cellulose science, exploring biosynthesis, advanced modification techniques, and the challenges of molecular simulation in cellulose interactions. Further sections highlight recent discoveries regarding cellulose properties, such as aggregation-induced emissions, photoluminescence properties, and cellulose nanocrystals.Final chapters discuss applications in energy harvesting, wastewater treatment, and biomedical fields, making it a valuable resource for researchers and professionals in sustainable materials.

  • Rubber Technology

    Manufacture, Processing, Properties, and Applications
    • 1st Edition
    • Sabu Thomas + 3 more
    • English
    Rubber Technology: Manufacture, Processing, Properties, and Applications brings together detailed and comprehensive information on rubber types and processes, guiding the reader from fundamentals through to the latest innovations in the field. Sections introduce structure-property relationships, compounding, processing, testing, and mechanics, and provide methodical discussions on rubber by type, covering natural rubber, synthetic rubbers, liquid rubbers, rubber composites, nanocomposites, and rubber-based blends, as well as major properties such as self-healing, shape memory, and functionalization. The penultimate section covers key aspects in the engineering and industrial utilization of rubber, including modeling and simulation, product manufacture, quality management, and applications.Finally... the book examines themes relating to the recycling and lifecycle of rubber-based products. This is a valuable resource for academic researchers and advanced students across materials science and engineering, and those from other disciplines who are looking to understand rubber, as well as industrial scientists, R&D, and engineers.

  • Phenolic Resins

    Synthesis, Modifications, Properties, and Applications
    • 1st Edition
    • Sandhya P.K. + 2 more
    • English
    Phenolic Resins: Synthesis, Modifications, Properties, and Applications brings together cutting-edge research to explore the versatile nature of phenolic resin materials. This comprehensive resource delves into the synthesis, processing, and characterization of phenolic resins, shedding light on their potential for advanced applications. The book also emphasizes greener and sustainable approaches, such as using biomass and waste, while analyzing lifecycle impacts. Perfect for researchers and professionals, it bridges the gap between academic advancements and industrial applications, offering innovative solutions for engineering, materials science, and polymer chemistry.The book provides detailed insights into alternative resins to replace traditional phenol formaldehyde, along with in-depth chapters on degradation studies and lifecycle analyses. It is an invaluable resource for those in polymer science, civil and plastics engineering, and automotive and aerospace industries. By merging theoretical knowledge with practical applications, the text ensures readers are well-equipped to innovate and optimize phenolic resin technologies. From composites to nanocomposites, this guide is essential for researchers, R&D professionals, and advanced students aiming to explore the forefront of phenolic resin advancements.

  • Micro- and Nanostructured Epoxy Thermosetting Polymer Blends and their Nanocomposites

    • 1st Edition
    • Sabu Thomas + 3 more
    • English
    Micro- and Nanostructured Epoxy Thermosetting Polymer Blends and their Nanocomposites provides a comprehensive overview of nanostructured thermoset blends and nanocomposites. It covers basic concepts of synthesis and design, as well as applications such as toughening, viscoelasticity, and thermal stability. The book begins with detailed descriptions of epoxy and block copolymers, reviewing their morphology and toughening mechanisms. The following chapters explore several epoxy/block copolymer blends and their nanocomposites, focusing on synthesis, viscoelastic properties, thermal stability, rheology, surface properties, and mechanical properties.The final chapters offer insights into future directions in this rapidly evolving field. This book is a valuable reference for researchers and industry professionals interested in these materials and the development of highly toughened micro and nanostructured high-performance materials.

  • Polymer Micro and Nanocomposites for High Voltage Insulation

    Properties and Applications
    • 1st Edition
    • Patricia Abimbola I Popoola + 3 more
    • English
    Polymer Micro and Nanocomposites for High Voltage Insulation: Properties and Applications covers the processing, fabrication, characterization, and resultant properties of polymer micro and nanocomposites for high voltage insulation applications. The book serves as a valuable reference book for researchers, engineers, and R&D professionals interested on polymer materials and nanotechnologies for insulation applications. Chapters address the fundamental, theoretical aspects of polyimides materials used for high voltage insulation, while following chapters discuss the effects of micro and nano inorganic insulation fillers on the mechanical, electrical and thermal insulation properties of polyimide microcomposites and polyimide nanocomposites.Diele... strength, behavior of space charge, and high temperature resistance of polyimide reinforced insulation filler are also discussed. Finally, ending chapters focus on the effects of the environment on the material’s insulation properties and review the methods used for the evaluation of insulation of polymer micro and nanocomposite materials.

  • Biopolymer-based Composites for Energy Generation and Storage

    • 1st Edition
    • Satyaranjan Bairagi + 2 more
    • English
    Biopolymer-Based Composites for Energy Storage and Generation covers the properties and performance of various biopolymers, examining their potential applications in batteries, supercapacitors, and solar cells, alongside considerations of their environmental impact, economic benefits, and associated challenges and limitations. Chapters discuss the fundamentals of biopolymers used in the energy field, cover their essential properties and performance, and feature specific applications, including batteries, supercapacitors, solar cells, portable electronics, electric vehicles, and grid energy storage. The book concludes by discussing the role of biopolymers in energy harvesting and generation, energy efficiency, and conservation.It critically examines challenges and limitations, considering both environmental impact and economic benefits. Research advancements and future directions are also discussed, making this a valuable resource for researchers and professionals interested in the application of sustainable materials in the energy sector.

  • Multifunctionality of Polymer Composites

    Challenges and Applications
    • 2nd Edition
    • Ulf Breuer + 2 more
    • English
    Multifunctionality of Polymer Composites: Challenges and Applications, Second Edition, brings together contributions from experts in the field of multifunctionality, presenting state-of-the-art discussion on the possible routes to achieve multifunctionality in reinforced polymers and composite structures, as well as their application in various industries. This new edition has been revised and expanded to include the latest advances, new materials, and applications that have emerged in recent years, and includes new chapters on self-healing composites, thermoelectric generators, vitrimers, morphing composites, and sliding materials. The text will enable engineers and materials scientists to achieve multifunctionality in their own products using different types of polymer matrices and various nano- and micro-sized fillers and reinforcements, including carbon nanotubes and graphene. In addition, technologies for the integration of active materials such as shape memory alloys are discussed. The latest developments in a wide range of applications, including automotive/aerospace... electronics, construction, medical engineering, and future trends are discussed, making this book an essential reference for any researcher or engineer seeking to stay ahead in this high-potential area.

  • Physicochemical Properties of Chitosan-Based Materials in Multiple Phases

    From Fundamentals to Biomedical, Pharmaceutical and Environmental Applications
    • 1st Edition
    • Emilia SzymaƄska + 1 more
    • English
    Physicochemical Properties of Chitosan-Based Materials in Multiple Phases: From Fundamentals to Biomedical, Pharmaceutical and Environmental Applications provides a comprehensive overview of structure diversity and versatile properties of chitosan while also summarizing the latest advancements and current applications of chitosan-based materials that are suitable for various purposes within pharmaceutics, biomedicine, chemical engineering, and environmental sciences. The book explores the complex nature between chitosan structure and its biological activity and describes strategies of polymer modification in order to tailor its physicochemical and mechanical properties.The utilization potential of chitosan for the fabrication of functional biomaterials in either liquid, semi-solid, or solid-state different phases (aqueous mixtures, hydrogels, solid films) is also covered. Finally, the key factors important to obtain chitosan materials suitable for biomedical applications and the characteristics of hybrid materials formed by chitosan and other components, including surfactants, polyelectrolytes, inorganic nanoparticles, are discussed.

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