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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.

  • Semiconductors and Semimetals

    • 1st Edition
    • Volume 39
    • August 10, 1993
    • English

  • Handbook of Magnetic Materials

    • 1st Edition
    • Volume 7
    • June 25, 1993
    • K.H.J. Buschow
    • English
    Volume 7 of the Handbook of Magnetic Materials provides an overview of some of the most exciting topics in magnetism today.Firstly, a substantial step forward in the understanding of metallic magnetism has been reached by means of electronic band structure calculation. Progress in this area has been made not only due to the availability of high speed computing machines but also due to sophistication in the computational methodology. Two chapters are devoted to this subject, one of which is devoted to the elements and the other dealing primarily with 4f and 5f systems, including examples of the large group of intermetallic compounds. In both chapters the authors have concentrated on explaining the physics behind these band calculations. The chapters are written in a manner understandable to scientists having no experience with band calculations.Thin film technology has become a key issue in high density magnetic and magneto-optical recording and will be dealt with in future volumes of the Handbook. The present volume introduces the field with a chapter on the magnetism of ultrathin transition metal films, describing the richness in novel magnetic phenomens that has been encountered in the past few years in these materials. Of equal interest are the novel magnetic phenomena observed when magnetic moments are incorporated in a semiconducting matrix. A comprehensive description of these materials is found in the chapter on diluted magnetic semiconductors. A separate chapter is devoted to the progress made in the field of heavy fermions and valence fluctuations, emphasis being placed on the important results obtained by means of neutron scattering. A detailed review of the progress made in the field of rare earth based intermetallic compounds in combination with 3d transition metals completes this multifaceted volume.

  • Semiconductors and Semimetals

    • 1st Edition
    • Volume 38
    • June 7, 1993
    • English

  • Castings

    • 1st Edition
    • May 13, 1993
    • John Campbell
    • English
    The information provided in this book covers the casting from melt to finished product. The publication of this in paperback edition will bring this knowledge to a wider audience, assisting industry out of its everyday problems, and inspiring the student to achieve even higher standards of casting in the future.

  • High T<INF>c</INF> Superconductors

    • 1st Edition
    • Volume 38
    • May 5, 1993
    • J. Dumas + 4 more
    • English
    A wide range of progress in materials development [single crystals, ceramics, thin films, wire and tapes] is reported in the 169 papers in this volume. The main focus of the papers is in attaining a better understanding of the relationship between microstructure and electrical properties. Invited papers cover topics such as the effects of substitution and doping; multilayers; nanostructure characterisation; electric field effects in High Tc Superconductors [HTS]; surface stability; critical currents; flux pinning and magnetooptic imaging of flux patterns; effects of irradiation induced defects; properties and preparation of materials; microwave properties and electronic devices. A clearly broadened basis for understanding processes and mechanisms in [HTS] is portrayed. Appreciable progress has been achieved in the reproducible manufacturing of high quality materials supported by very efficient methods in microstructural analysis. This essential improvement is reflected in the increased number of practical devices encouraging the use of HTS in applications for electronics and power engineering, all of which are reviewed in depth in this work.

  • Rapid Thermal Processing

    Science and Technology
    • 1st Edition
    • April 15, 1993
    • Richard B. Fair
    • English
    This is the first definitive book on rapid thermal processing (RTP), an essential namufacturing technology for single-wafer processing in highly controlled environments. Written and edited by nine experts in the field, this book covers a range of topics for academics and engineers alike, moving from basic theory to advanced technology for wafer manufacturing. The book also provides new information on the suitability or RTP for thin film deposition, junction formation, silicides, epitaxy, and in situ processing. Complete discussions on equipment designs and comparisons between RTP and other processing approaches also make this book useful for supplemental information on silicon processing, VLSI processing, and integrated circuit engineering.

  • SiGe Based Technologies

    • 1st Edition
    • Volume 31
    • February 18, 1993
    • Yasuhiro Shiraki + 2 more
    • English
    The preparation of silicon germanium microstructures, their physical, chemical and electrical characterization, and their device processing and application are reviewed in this book. Special emphasis is given to ultrathin Si/Ge superlattices. Topics covered include: Wafer preparation and epitaxial growth; surface effects driven phenomena, such as clustering, segregation, 'surfactants'; Analysis, both in situ and ex situ; Strain adjustment methods; High quality buffers; Modification of material properties by quantum wells and superlattices; Devices: Novel concepts, processing, modelling, demonstrators. The questions highlighted, particularly those articles comparing related or competing activities, will provide a wealth of knowledge for all those interested in the future avenues of theory and applications in this field.

  • Single Chamber Processing

    • 1st Edition
    • Volume 37
    • February 15, 1993
    • Y.I. Nissim + 1 more
    • English
    Single chamber processing has attracted the attention of a number of researchers as well as industries as an alternative processing "philosophy" to complement or even replace the stringent environment of micro- and optoelectronics device fabrication. Up till now single chamber processing has been an elusive manufacturing objective throughout the history of integrated circuit technology. With the emergence of integrated processing tools in recent years, significant segments for continuous fabrication processes have been successfully realised and their potential has already innovated the industry.The 14 papers in this volume cover topics such as: The background of this approach and up-dated status; Design and concepts of relevant cluster tools equipment; Specific process modules such as deposition chambers (CVD, RTCVD, UVCVD, ...) annealing or etching reactors; and Standardization efforts. The work will provide both a stimulus for future research in this field, as well as useful reference material on the new technology trends in microelectronic device manufacturing technology.

  • Handbook of the Moire Fringe Technique

    • 1st Edition
    • January 22, 1993
    • K. Patorski + 1 more
    • English
    Moire fringe techniques have expanded considerably over the past decade and are now established as important metrological tools. The main reason for this flourishing expansion is the use of the moiré fringe method in the common availability of the laser light. This book covers the major theoretical aspects and applications of the moire technique. A concise description of the formation of moiré fringes and their interpretation is presented. A comprehensive review of the most important applications of the moiré phenomenon is given. Although some of them are still being refined there are already well established applications to moire displacement and alignment sensors, grating interferometry, moiré processing of interferograms, moiré topography and strain analysis. There is also a discussion on the influence of the types of superimposition on structures and of the type of illumination used on the intensity distribution in moire patterns. An understanding of moire fringes and of the characteristics of moiré patterns, which depend on various optical configurations, is essential for the proper use and control of moiré methods. The physical and practical attributes of each technique are clarified throughout. The book will prove most appropriate in meeting the needs of newcomers to the field, as well as those of researchers and technicians who want to acquire a broader view and assessment of particular techniques.

  • Engineering Metallurgy Applied Physical Metallurgy

    Applied Physical Metallurgy
    • 6th Edition
    • January 21, 1993
    • Malcolm Higgins
    • English
    An ideal introduction to physical metallurgy, this popular and well-established text offers far more specific information on alloys and steels that comparable general materials books. Placing emphasis very much on applied metallurgy, the author employs a simple, direct style, together with helpful diagrams, to relate theory to commercial alloys and real applications.

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