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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.

  • Diffraction and Imaging Techniques in Material Science P1

    Electron Microscopy
    • 2nd Edition
    • December 2, 2012
    • S Amelinckx
    • English
    Diffraction and Imaging Techniques in Material Science describes the various methods used to study the atomic structure of matter at an atomic scale based on the interaction between matter and radiation. It classifies the possible methods of observation by making a list of radiations on the basis of wavelength, including ions, X-ray photons, neutrons, and electrons. It also discusses transmission electron microscopy, the weak-beam method of electron microscopy, and some applications of transmission electron microscopy to phase transitions. Organized into 13 chapters, this volume begins with an overview of the kinematic theory of electron diffraction and the ways to treat diffraction by a deformed crystal. It discusses the dynamical theory of diffraction of fast electrons, the treatment of absorption in the dynamical theory of electron diffraction, the use of electron microscopy to study planar interfaces, and analysis of weak-beam images. The book also covers the use of computed electron micrographs in defect identification, crystallographic analysis of dislocation loops containing shear components, and detection and identification of small coherent particles. In addition, the reader is introduced to interpretation of diffuse scattering and short-range order, along with the crystallography of martensitic transformations. The remaining chapters focus on the working principle of the transmission electron microscope, experimental structure imaging of crystals, and the study of diffuse scattering effects originating from substitutional disorder and displacement disorder. The information on diffraction and imaging techniques in material science contained in this book will be helpful to students, researchers, and scientists.

  • Computed Electron Micrographs And Defect Identification

    • 1st Edition
    • December 2, 2012
    • A.K. Head
    • English
    Computed Electron Micrographs and Defect Identification illustrates a technique for identifying defects in crystalline solids by the comparison of their images, which are produced in the electron microscope, with corresponding theoretical images. This book discusses the diffraction of electrons by a crystal; the two-beam dynamical equations; the absorption parameters; the deviation of the crystal from the Bragg reflecting position; the extinction distance; the displacement vector; and the foil normal. Chapter three presents the experimental techniques for determination of beam direction, defect line normal, foil normal, foil thickness, and extinction distance. Chapters four to seven explore ONEDIS and TWODIS and their principles. Chapters eight and nine focus on the application and limitations of the technique, while the last chapter explores the different computer programs related to the technique. Post-graduate students, as well as researchers using transmission electron microscopy for studying defects in crystalline solids, will find this book invaluable.

  • Ballistic Materials and Penetration Mechanics

    • 1st Edition
    • December 2, 2012
    • Roy Laible
    • English
    Ballistic Materials and Penetration Mechanics deals with ballistically protective materials and penetration mechanics. The book discusses historical and practical considerations of ballistic protection, including metallic armor, as well as ballistic testing methodology, the ability of a protective material to stop or slow down a particular projectile, and the theoretical aspects of penetration mechanics. It also highlights the importance of stress wave analysis in the penetration and spalling phenomena. Organized into 12 chapters, this volume begins with an overview of the history of the armor and the modern helmet. It proceeds with a discussion of variations in ballistic test methods, errors in test methods, and the importance of the hardness and geometry of both the target and the projectile. The next chapters focus on the importance of fibrous armor, materials that are visually transparent and resistant to penetration by high-energy projectiles and fragments, and transparent armor and ceramic composite armor. The reader is also introduced to materials used in the design of metallic armor, the role of stress waves in the penetration problem, and the use of computer simulation to analyze ballistic impact experiments. The book looks at numerical techniques for modeling hypervelocity impact and concludes with a chapter on the penetration mechanics of textile structures. This book is a valuable resource for scientists working at government, industrial, and university laboratories, as well as law enforcement officers and others who want information on materials that provide the best protection against damage from impacts, explosions, and bullets.

  • Application of Fracture Mechanics to Composite Materials

    • 1st Edition
    • Volume 6
    • December 2, 2012
    • K. Friedrich
    • English
    This multiauthor volume provides a useful summary of current knowledge on the application of fracture mechanics to composite materials. It has been written to fill the gap between the literature on fundamental principles of fracture mechanics and the special publications on the fracture properties of conventional materials, such as metals, polymers and ceramics.The data are represented in the form of about 420 figures (including diagrams, schematics and photographs) and 80 tables. The author index covers more than 500 references, and the subject index more than 1000 key words.

  • Selected Topics in Group IV and II-VI Semiconductors

    • 1st Edition
    • Volume 54
    • December 2, 2012
    • E.H.C. Parker + 4 more
    • English
    This book contains the proceedings of two symposia which brought together crystal growers, chemists and physicists from across the world. The first part is concerned with silicon molecular beam epitaxy and presents an overview of the most research being done in the field.Part two discusses the problems dealing with purification, doping and defects of II-VI materials, mainly of the important semiconductors CdTe and ZnSe. The focus is on materials science issues which are the key for a better understanding of these materials and for any industrial application.

  • Creep And Relaxation Of Nonlinear Viscoelastic Materials With An Introduction To Linear Viscoelasticity

    • 1st Edition
    • Volume 18
    • December 2, 2012
    • W.N. Findley
    • English
    Creep and Relaxation of Nonlinear Viscoelastic Materials with an Introduction to Linear Viscoelasticity deals with nonlinear viscoelasticity, with emphasis on creep and stress relaxation. It explains the concepts of elastic, plastic, and viscoelastic behavior, along with creep, recovery, relaxation, and linearity. It also describes creep in a variety of viscoelastic materials, such as metals and plastics. Organized into 13 chapters, this volume begins with a historical background on creep, followed by discussions about strain and stress analysis, linear viscoelasticity, linear viscoelastic stress analysis, and oscillatory stress and strain. It methodically walks the reader through topics such as the multiple integral theory with simplifications to single integrals, incompressibility and linear compressibility, and the responses of viscoelastic materials to stress boundary conditions (creep), strain boundary conditions (relaxation), and mixed stress and strain boundary conditions (simultaneous creep and relaxation). The book also looks at the problem of the effect of temperature, especially variable temperature, on nonlinear creep, and describes methods for the characterization of kernel functions, stress analysis of nonlinear viscoelastic materials, and experimental techniques for creep and stress relaxation under combined stress. This book is a useful text for designers, students, and researchers.

  • Electrons In Metals And Alloys

    • 1st Edition
    • December 2, 2012
    • J. A. Alonso + 1 more
    • English
    This book is a broad review of the electronic structure of metals and alloys. It emphasises the way in which the behavior of electrons in these materials governs the thermodynamic and other properties of these conducting materials. The theoretical treatment proceeds from a wave mechanics approach to more sophisticated techniques for the description of the properties of metals and alloys.

  • Friction and Wear of Polymer Composites

    • 1st Edition
    • Volume 1
    • December 2, 2012
    • Klaus Friedrich
    • English
    Providing a useful summary of current knowledge on the friction and wear properties of composite materials, this book fills the gap between publications on fundamental principles of tribology and those on the friction and wear behavior of metals and polymers. Detailed coverage is given of: the fundamental aspects of tribology in general and polymer composites in particular; the effects of the microstructure of composites on friction and wear behavior under different external loading conditions; and the problem of the control of friction and wear behavior in practical situations. Although emphasis is on polymer composites associated with bearing-type applications, part of the book is also devoted to the friction and wear of metal-based composites and rubber compounds. The data are represented in the form of 277 figures, diagrams and photographs, and 68 tables. The author index covers more than 670 references, and the subject index more than 1,000 keywords.The book will be of particular interest to: those involved in research on some aspects of polymer composites tribology (material scientists, physical chemists, mechanical engineers); those wishing to learn more methods for solving practical friction or wear problems (designers, engineers and technologists in industries, dealing with selection, reprocessing and application of polymer engineering materials); and teachers and students at universities.

  • Metallurgical Coatings 1988

    Proceedings of the 15th International Conference on Metallurgical Coatings, San Diego, CA, U.S.A., April 11–15, 1988
    • 1st Edition
    • December 2, 2012
    • R Krutenat
    • English
    Metallurgical coatings 1988 is a compilation of the proceedings of the 15th International Conference on Metallurgical Coatings. This volume is divided into four parts, which deal with synthesis and properties of coatings used in microelectronic applications; methods of characterizing coatings and modified surfaces; protective coatings for magnetic and optical thin film media; and thick and thin film censors. The first part of this volume is further subdivided into five sections focusing on thin film barrier layers, metallization for VLSI circuits, thin films used in packaging technology, new materials and emerging technologies and synthesis and microstructure of high Tc superconductors. The second part is also subdivided into four sections, each presenting different methods, such as the surface and thin film analysis techniques, microstructural characterization techniques, mechanical properties of films and coatings, and non-destructive characterization techniques. Part three discusses the preparation and characterization of reactively sputtered silicon nitride thin films, the bond structures and properties of chemically vapor-deposited amorphous SiC, and the wear of Co-Ni thin film magnetic recording tape against metallic and ceramic surfaces. Finally, this volume explores the insert-mounted thin film sensors for real-time.

  • Wide-band-gap Semiconductors

    • 1st Edition
    • December 2, 2012
    • C.G. Van de Walle
    • English
    Wide-band-gap semiconductors have been a research topic for many decades. However, it is only in recent years that the promise for technological applications came to be realized; simultaneously an upsurge of experimental and theoretical activity in the field has been witnessed. Semiconductors with wide band gaps exhibit unique electronic and optical properties. Their low intrinsic carrier concentrations and high breakdown voltage allow high-temperature and high-power applications (diamond, SiC etc.). The short wavelength of band-to-band transitions allows emission in the green, blue, or even UV region of the spectrum (ZnSe, GaN, etc.). In addition, many of these materials have favorable mechanical and thermal characteristics.Thes... proceedings reflect the exciting progress made in this field. Successful p-type doping of ZnSe has recently led to the fabrication of blue-green injection lasers in ZnSe; applications of short-wavelength light-emitting devices range from color displays to optical storage. In SiC, advances in growth techniques for bulk as well as epitaxial material have made the commercial production of high-temperature and high-frequency devices possible. For GaN, refinement of growth procedures and new ways of obtaining doped material have resulted in blue-light-emitting diodes and opened the road to the development of laser diodes. Finally, while the quality of artificial diamond is not yet high enough for electronic applications, the promise it holds in terms of unique material properties is encouraging intense activity in the field.This volume contains contributions from recognized experts presently working on different material systems in the field. The papers cover the theoretical, experimental and application-oriented aspects of this exciting topic.

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