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Containing 65 papers from the symposium titled Chemical Aspects of Electronic Ceramics Processing held in November- December 1997 in Boston, the contents of this volume are divided into five sections: chemical vapor deposition of oxide ceramics; chemical vapor deposition of nonoxide ceramics; solution routes to ceramic materials; characterization and application of ceramic materials; and process characterization as a form of novel processing of ceramic materials. Annotation copyrighted by Book News, Inc., Portland, OR
This volume contains 65 papers from a symposium entitled "Chemical Aspects of Electronic Ceramics Processing," held over four days at the 1997 MRS?all Meeting in Boston. This symposium is the "merger" of two previously held symposia, "Non- Oxide Ceramics" and "Metal Organic Chemical Vapor Deposition of Electronic Ceramics," both held twice before in the Fall of 1993 and the l"all of 1995. The considerable overlap, between the two symposia, especially in the area of chemical vapor deposition of non-oxide electronic ceramics, suggested that combining the two would attract a wider audience without unduly sacrificing the focus of the symposium. The common themes in all of the research presented in this volume are the creative use of chemistry principles for ceramic fabrication and a multidisciplinary approach to materials research. Inorganic chemistry, solid-state chemistry, chemical engineering, materials science and engineering, and electrical engineering have all been skillfully combined to produce materials which will play an increasingly more important part in our lives. As in prior years, chemical vapor deposition (CVD) continues to be a popular area of research and was the subject of approximately half of the papers in this volume. Farticularly "hot" areas of research are new and improved precursors, delivery systems for low-vapor pressure precursors, and improved processing and materials properties.?apers are evenly divided between oxide ceramics and non- oxide ceramics.
A comprehensive treatment of producing ceramic, glass, and composite materials using chemistry-based processing methods. Synthesizes the most up-to-date research. Includes new areas of computer aided processing, molecular calculations of ceramic processing reactions, and chemical control of surface films. Contributions from over 115 experts in the field. Index.
Many believe that the silicon/information age is heading to the Age of Biology and that the next frontier in ceramics will most likely require molecular level or nanoscale control. What, then, is the role of ceramics in the age of biology? As we change from an energy-rich society to an energy-declining society, how can ceramic materials appease the
This book provides fundamental knowledge of ceramics science and technology in a compact volume. Based on inorganic chemistry, it is intended as a reader for graduate students and young researchers beginning work in ceramics. The importance of the book is that it provides a scientific understanding of structure, properties, and processing from the chemical aspect, leading to creation of future ceramics. Ceramics have high hardness, strength, thermal and chemical stability, as well as various electromagnetic functions. To take full advantage of ceramics, their use has been advanced to engineering and electronic ceramics. Most ceramics have been fabricated by powder processing, and new technologies have also evolved such as CVD and sol-gel methods: new ceramics aimed at new functions of highly pure oxides and artificial nitrides, carbides, and borides; fine ceramics focused on precise control of composition and microstructure; and design of unique morphology, such as nanoparticles, nanofibers, nanosheets, mesoporous materials, and hybrids. Materials are composed of atoms and molecules. They are assembled into crystals and are amorphous, leading to 3-D micro/nano structures. In addition to the topics described above, this book shows the importance of chemistry for materials design at the nanometer scale, and that chemistry develops new fields of environment, energy, informatics, biomaterials, and other areas.
Emphasizes the importance of surface and colloid chemistry in the manufacture of high-performance ceramics. Examines processing-property relationships, powderproductionandcharacte6zation,the dispersion properties of powders in liquids, the rheology of concentrated suspensions, and the surface and colloid chemistry aspects of the most widely used forming methods.
This book is primarily an introduction to the vast family of ceramic materials. The first part is devoted to the basics of ceramics and processes: raw materials, powders synthesis, shaping and sintering. It discusses traditional ceramics as well as “technical” ceramics – both oxide and non-oxide – which have multiple developments. The second part focuses on properties and applications, and discusses both structural and functional ceramics, including bioceramics. The fields of abrasion, cutting and tribology illustrate the importance of mechanical properties. It also deals with the questions/answers of a ceramicist regarding electronuclear technology. As chemistry is an essential discipline for ceramicists, the book shows, in particular, what soft chemistry can contribute as a result of sol-gel methods.
The first of two volumes offering state-of-the-art views and directions for future research. Covers advanced processing concepts for increased ceramic reliability, processing of silicon nitrate powders, processing of electronic ceramics and of ceramic composites, injection molding, microwave processing, and thin film deposition processes for electronic and structural ceramics. Annotation copyrighted by Book News, Inc., Portland, OR