Books by Keyword: Silicon Carbide (SiC)

Description: Wide bandgap semiconductors such as SiC, III-V nitrides and related compounds are currently attracting more and more attention due to their very interesting physical properties, which are different from those of conventional semiconductors. Steady improvement of the crystal quality and improved knowledge of the physical properties of these materials are leading to rapid developments in high-power, high-temperature, high-frequency electronics and blue light emitters.
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Description: Silicon carbide is the semiconductor of choice for new applications including electric power devices, high frequency devices, high temperature devices, and radiation resistant devices. The III-Nitride compound semiconductors are well suited for optoelectronics and are promising materials for high frequency devices. This two-volume set contains written versions of papers presented at the International Conference on Silicon Carbide and Related Materials – 1999 (ICSCRM’99), held October 10-15, 1999, at Research Triangle Park, North Carolina.

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This work represents a new approach to ceramics research. The mechanical properties of ceramics and ceramic-based composites are well understood and have been studied extensively in the past. This more profound understanding of physical properties, such as particularly low or high thermal conductivities, radiation penetration depth, electrical and magnetic responses etc., can now lead to the development of new materials having improved properties.

Description: The research field of Electroceramics is rapidly expanding, and has tremendous implications for a wide range of high-tech applications.
This book presents the latest research results on conductive ceramics; dielectrics; piezo-electric ceramics; ZnO semiconducting ceramics; insulators; batteries and cells; and memory devices.

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The application of ceramic materials is currently expanding into a wide range of areas, e.g. gas turbine assembly, engine components, electronic devices, bio-materials etc. But because ceramics pose problems with respect to their brittleness and low reliability, due to their intrinsic nature and/or processing defects, research related to the deformation and fracture of ceramics is still a subject of high priority.

Description: Continuing the scope of the preceding Conferences on Intergranular and Interphase Boundaries in Materials, the present conference focused on the atomic-level modeling of interfaces, the structural and chemical characterization of internal interfaces, on their thermodynamic, kinetic, mechanical, electrical, magnetic behavior and high-Tc superconductivity, and on the application of current knowledge to the design of polycrystalline materials having improved properties. Particular attention was paid to non-equilibrium segregation in irradiated materials.
Volume is indexed by Thomson Reuters CPCI-S (WoS).

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High performance materials are needed in many thermomechanical applications, such as advanced jet engines or gas turbines, thermal protection of space planes, thermal engineering and nuclear fusion. Ceramic-matrix composites, reinforced with long fibers, are expected to be the most promising candidates for such applications. However, several key problems will have to be solved in the near future. These problems include, above all, the development of a superior thermomechanical performance and oxidation resistance for ceramic fibers and composites, highly efficient protection against corrosion, better fiber/matrix interface design and performance, and cost effective processing.

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A total of 147 peer-reviewed papers were presented during EnCera' 98. The topics covered included: "Modeling of Microstructural Evolution", "Novel Processing", "Advanced Oxide Ceramics", "Advanced Non-oxide Ceramics", "Particulate, Platelet and Whisker Reinforced Composites", "Nanostructured Ceramics and Nanocomposites", "Synergy Ceramics", "Fracture, Deformation and Mechanical Reliability", "Advanced Refractories", and "Joining, FGM and Applications" .

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Ceramics have long been recognized as one of the key materials for the 21st century because of their various unique properties which cannot be duplicated by any other existing material.

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This two-volume set documents the present understanding of many topics of interest, such as the growth of bulk crystals, the growth of epitaxial layers, theoretical modelling, the characterization of as-grown material, the development of suitable processes and of electronic devices which can operate under extreme conditions and exhibit outstanding properties.