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Books in Materials science

The Materials Science portfolio includes titles covering core knowledge and new research and applications across the field: nanotechnology and nanomaterials; polymers and plastics; textiles; composites and ceramics; electronic, magnetic, and optical materials; metals and alloys; biomaterials; surface and film science and coating technologies; materials chemistry, and more. In-depth coverage, innovative state-of-the-art approaches, and real-world application examples provide valuable, actionable insights for researchers, students, and the corporate sector. Elsevier's Materials Science portfolio places special attention on areas of current and emerging interest such as additive manufacturing / 3D printing, graphene and 2D materials, smart materials, biomimetics... The content in Elsevier's Materials Science titles program addresses core challenges facing science and society: sustainable energy technologies, the circular economy, health and human welfare.

  • Handbook of Nucleating Agents

    • 3rd Edition
    • April 24, 2026
    • George Wypych
    • English
    Handbook of Nucleating Agents, Third Edition provides information on how to increase the production rate, modify structure and morphology, improve mechanical performance, and reduce the haze of polymeric products with proper selection of nucleating agents (and/or the so-called clarifying agents). It also analyzes important publications found in open and patent literature, with special attention given to the findings of the last five years which brought many new important developments. The book is divided into 14 chapters, each of which concentrates on the essential performance of nucleating agents. Chemical origin and related properties of nucleating agents are analyzed in general terms to highlight the differences in their properties. The specific agents are discussed in Databook of Nucleating Agents, which is published as a separate book to help in the selection of products available in the commercial markets and analyze the properties of different products. Information in Databook and Handbook is totally different without any repetition. The next six chapters of the Handbook discuss the most essential theoretical knowledge required for the proper selection and use of nucleating and clarifying agents. These include polymer crystallization with and without nucleating agents, parameters of crystallization, essential influences on the nucleation processes, measures of nucleation efficiency, mechanisms of nucleation, and effective methods of dispersion of nucleating agents. The following three chapters concentrate on the application aspects in different formulations. Here, extensive use is being made of patent literature and research papers available for different applications. Discussed are nineteen polymer processing methods that require the use of nucleating agents, forty different polymers that are known to use nucleating agents, and sixteen groups of commercial products in which nucleating agents found applications. This shows that the modern use of nucleating agents is widespread in industry. The last three chapters discuss the effects of nucleating agents on the physical and mechanical properties of materials, the essential analytical techniques used to analyze systems containing nucleating agents, and health and safety in the use of nucleating agents.

  • Databook of Nucleating Agents

    • 3rd Edition
    • April 24, 2026
    • Anna Wypych + 1 more
    • English
    Databook of Nucleating Agents, Third Edition gives engineers and materials scientists the information they need to increase the production rate, modify structure and morphology, and reduce the haze of polymeric products through proper selection of nucleating and clarifying agents. Chemical origin and related properties of nucleating agents are analyzed in general terms to highlight the differences in their properties, including the essential theoretical knowledge required for correct selection and use of nucleating and clarifying agents. This includes methods of chemical modification of nucleating agents and their deposition on suitable substrates, methods and results of dispersion of nucleating agents, influence of their concentration and cooling rate on final result and rate of crystallization, nucleation efficiency of different products and the reasons behind it, and generally accepted mechanisms of nucleation. The book also covers application aspects in different formulations. Patent literature and research papers are extensively reviewed for different applications, and polymer processing methods which require the use of nucleating agents are discussed, with an emphasis on the intricacies of using nucleating agents in different polymers and products. Production of many nucleating agents included in the previous editions has been discontinued, and those agents have been replaced by recently developed ones. Existing additives have been modified and repurposed, and this new edition also contains revised data on currently available generic and commercial nucleating agents.

  • Handbook of Polymers for Electronics

    • 2nd Edition
    • April 24, 2026
    • George Wypych
    • English
    Polymers used in electronics and electrical engineering are essential to the development of high-tech products, with applications in space, aviation, health, automotive, communication, energy harvesting and storage, light-emitting and sensing, flexible electronics, robotic systems, analytical sensors, consumer products, and more. Conductivity is the first feature that comes to mind with these polymers, but they are currently much more complex, having shape-memory, piezoelectric, ferroelectric, and many other properties. Typical features of mainstream polymers, such as mechanical performance, optical behavior, and environmental stability, are required by polymers used in electronics, but frequently they must be enhanced to perform in these demanding applications. In many applications, the properties of typical polymers (usually included in popular handbooks) are not sufficient, creating the need to develop special grades or simply use completely new chemistry for their synthesis. Similarly, the typical set of properties included in the description of the mainstream polymer is not sufficient for polymer selection for these applications as they require different data, data that is meticulously detailed in the Handbook of Polymers for Electronics. The book provides readers with the most up-to-date information from the existing literature, manufacturing data, and patent filings. Presenting data for all polymers based on a consistent pattern of arrangement, the book provides details organized into the following sections: General; history; synthesis; structure; commercial polymers; physical properties; electrical properties; mechanical properties; chemical resistance; flammability; weather stability; thermal stability; biodegradation; toxicity; environmental impact; processing; blends; analysis. The contents, scope, treatment and novelty of the data makes this book an essential resource for anyone working with polymeric materials used in modern electronic applications.

  • Handbook of UV Degradation and Stabilization

    • 4th Edition
    • April 24, 2026
    • George Wypych
    • English
    Handbook of UV Degradation and Stabilization, Fourth Edition, has been completely updated with the most recent literature and patents, discussing different aspects of UV-related phenomena that occur when polymeric materials are exposed to UV radiation. It reviews existing literature, looking at how plants, animals, and humans protect themselves against UV radiation. This review permits the evaluation of mechanisms of protection against UV used by living things and potential application of these mechanisms in the protection of natural and synthetic polymeric materials. Other chapters look at more specific aspects of UV degradation and stabilization, such as photophysics, specific polymers and rubbers, analytical methods used in UV stabilization, health and safety, and more. This book is an excellent companion to the Databook of UV Stabilizers. Both books supplement each other without repeating the same information- one contains data, the other theory, mechanisms of action, practical effects, and implications of application.

  • Materials Science for Dentistry

    • 11th Edition
    • April 17, 2026
    • B. W. Darvell
    • English
    Materials Science for Dentistry, Eleventh Edition, is a must-have resource for undergraduate and postgraduate courses in dentistry. This book provides fundamental coverage of the materials on which dentistry depends, covering the structure, mechanics, chemistry and physics that govern the behavior and performance of materials. Particular classes of materials include gypsum, polymers, acrylic, cements, waxes, ceramics and metals. Other chapters review surfaces, corrosion, mixing, casting, cutting and bonding, and mechanical testing. This updated edition, which includes substantial chapters on chemistry, has been extensively refined and reworked to provide the most useful content for a broad readership, from undergraduate students through to senior researchers and teachers. Accessibly written to provide explanations for behavior, formulation, clinical and laboratory instructions and procedures, there is no comparable resource for researchers, students, technicians, instructors and practitioners in the field of dentistry.

  • Advanced Molecular Magnetism

    • 1st Edition
    • April 2, 2026
    • Roman Boča
    • English
    Advanced Molecular Magnetism provides a rigorous overview of the magnetic properties of molecular and extended inorganic systems. Sections cover the fundamentals of magnetic data recording and analysis, establishing exchange interactions as a foundational concept, including discussions on exchange interactions involving both d- and f-block elements, the role of magnetic anisotropy, single-molecule magnets, and spin crossover phenomena. Content emphasizes the correlation of magnetic property analysis with complementary techniques such as UV-Vis and electron paramagnetic resonance (EPR) spectroscopy. In addition, the book provides a thorough overview of electronic energy levels in transition metal complexes is provided, covering electronic terms, multiplets, and Zeeman splitting.The interface between quantum mechanics and macroscopic thermodynamic properties is explored through statistical thermodynamics, and the book reviews the major types of magnetic materials—diamagneti... paramagnetic, ferromagnetic, and antiferromagnetic—wi... a focus on their underlying principles and real-world examples. Methods for deriving magnetochemical formulae for Curie paramagnets, zero-field splitting systems, T- and E-term systems, and pure multiplet systems are clearly presented, alongside practical guidance for magnetic data collection and analysis. Special attention is given to the magnetism of f-elements and the unique properties of single-molecule magnets, as well as to the correct description of many-electron states in both free atoms and those influenced by crystal fields.

  • Handbook of Natural Polymers, Volume 3

    Versatile Applications
    • 1st Edition
    • April 1, 2026
    • Sreekala Meyyarappallil Sadasivan + 3 more
    • English
    The Handbook of Natural Polymers: Versatile Applications offers a comprehensive and current overview of advanced uses of natural biopolymers across diverse fields. Beginning with an introduction to the state-of-the-art and emerging opportunities, the book explores natural polymers in areas such as biosensing, drug delivery, cosmetics, tissue engineering, textiles, adhesives, food technology, super adsorbents, automotive and construction materials, 3D printing, paper, nanoelectronics, separation processes, military uses, smart devices, water purification, dentistry, agriculture, packaging, and energy storage.Each section details polymer sources, preparation, properties, and applications, highlighting innovations and new directions. Sustainable themes including environmental remediation and conversion of natural polymers into biofuels are also addressed.As part of a three-volume handbook offering comprehensive coverage of natural polymers, this book will appeal to academic researchers, scientists, advanced students, engineers, and R&D professionals across multiple disciplines and industries seeking broad and detailed knowledge of natural polymers and their applications.

  • High Entropy Materials

    Fundamentals and Potential Applications
    • 1st Edition
    • April 1, 2026
    • An-Chou Yeh + 3 more
    • English
    High Entropy Materials: Fundamentals and Potential Applications covers the fundamental science of high entropy materials (HEMs) and advances in the development of various structural and functional HEMs: topics covered include strength and ductility combination; hydrogen embrittlement resistance; shape memory properties; fatigue properties as well as detailed reviews of high-entropy superalloys; refractory high entropy alloys; ferroelectric high entropy oxides; nanocrystal library for catalytic applications; water splitting for hydrogen production; thermoelectric properties; lithium and sodium batteries; high-entropy polymers; high-entropy coatings for elevated temperatures and wear resistance; and AI-based approaches to explore the high entropy materials composition space. The book is written by international experts in the field including the director and principal investigators of the High Entropy Materials Center in Taiwan: the first research center dedicated to the development of HEMs

  • Materials Informatics

    Molecules, Crystals, and Beyond
    • 1st Edition
    • April 1, 2026
    • Krishna Rajan
    • English
    Materials Informatics: Molecules, Crystals and Beyond discusses the role of information science in aiding the discovery and interpretation of multiscale relationships that are critical for materials discovery, design, and optimization. The book covers key challenges in applying information science methods to materials science, including the multidimensional nature of structure-property relationships, data sparsity, and the nature and sources of uncertainty, along with a brief overview of the algorithmic tools used for unsupervised and supervised learning.Building on these topics, chapters then cover the development of physics/chemistry informed data representations of structure and properties, the application of machine learning for structure and property prediction and screening for targeted properties, and the utilization of techniques such a graphics recognition, natural language processing, and statistically driven visualization tools in deciphering processing-structure... relationships in materials.

  • Hydrogels in Orthopedic Tissue Engineering

    Advances in Bone and Cartilage Regeneration
    • 1st Edition
    • April 1, 2026
    • Balaji Ayyanar Chinnappan + 6 more
    • English
    Hydrogels in Orthopaedic Tissue Engineering: Advances in Bone and Cartilage Regeneration is a comprehensive evaluation of new and existing biomaterials transforming orthopedic care: in particular, it examines the science and application of hydrogels, showcasing their remarkable ability to mimic natural tissue environments, promote healing, and integrate seamlessly with the body. It reviews recent advances in hydrogel technology, including their design, synthesis, and functionalization for enhanced biocompatibility and mechanical properties. Each chapter provides an in-depth analysis of hydrogel-based strategies for repairing and regenerating bone and cartilage, addressing critical challenges such as vascularization, cell differentiation, and long-term stability. Through detailed case, the book offers invaluable insights for researchers, clinicians, and biomedical engineers

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