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This collection emphasizes the advances of powder and ceramic/glass materials in the fundamental research, technology development, and industrial applications. Ceramic materials science covers the science and technology of creating objects from inorganic, non-metallic materials, and includes design, synthesis, and fabrication of ceramics, glasses, advanced concretes, and ceramic-metal composites. In recent years, the hybrids of ceramic and metallic materials have received plenty of interdisciplinary inspirations and achievements in material processes and functional applications including ionic conductors, catalysis, energy conversion and storage, superconductors, semiconductor, filtrations, etc. Topics cover, but are not limited to:· Silicates, oxides, and non-oxide ceramics and glasses · Synthesis, characterization, modeling, and simulation of ceramic materials · Design and control of ceramic microstructure and properties · Ceramic powders and processing · Catalyst and catalyst support materials · Fundamental understanding of ceramic materials and processes · Novel methods, techniques, and instruments used to characterize ceramics and glasses · High entropy ceramics (and/or entropy stabilized, complex-concentrated, compositionally-complex, multi-principal cation ceramics) · Bioceramics, electronic, magnetic ceramics, and applications · Surface treatment and ceramic thin films, membranes, and coatings · Porous ceramic materials · Hybrid systems of ceramic, metal, and/or polymer composites · Ceramics used for extreme environments · Metallurgical byproducts for ceramic manufacturing.
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This book examines exciting advancements in the field of ceramics, including nanotechnology, clean energy, and tribology as well as fundamental concepts like defects and structure. It is a comprehensive discussion on how today's ceramics are processed and used in many of today's critical technologies. It discusses current techniques for synthesizing durable and cost-effective ceramic components with biocompatibility, complexity, and high precision. This book is a comprehensive reference for researchers, engineers, dental clinicians, biologists, academics, and students interested in ceramics.
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Im Sonderforschungsbereich SFB 483 "Hochbeanspruchte Gleit- und Friktionssysteme auf Basis ingenieurkeramischer Werkstoffe" erforschen, durch die Deutsche Forschungs¬gemeinschaft gefördert, 8 Institute des Karlsruher Institutes für Technologie sowie das Fraunhofer-Institut für Werkstoffmechanik aus Freiburg i. Br. grundlagenorientiert und interdisziplinär angelegt den Einsatz ingenieurkeramischer Werkstoffe in tribologisch, mechanisch und thermisch hochbeanspruchten Friktions- und Gleitsystemen.
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Advanced ceramics are referred to in various parts of the world as technical ceramics, high-tech ceramics, and high-performance ceramics. Advanced ceramics have better performances in quality as well as new applications that traditional ones do not have. They have multiple physical and mechanical properties including high hardness, high strength, thermal shock resistance, wear resistance, corrosion resistance, and high-temperature resistance. In view of these characteristics, advanced ceramics are often high value-added products. Developments in advanced ceramics continue at a rapid pace, constituting what can be considered a revolution in the kind of materials and properties obtained.This reprint is intended for material researchers and application developers who seek information on the microstructural design and processing control of advanced ceramics, including piezoelectric ceramics, high-temperature ceramic composites, ceramic coatings, metal glasses, etc.
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Until recently, ceramic materials were considered unsuitable for optics due to the numerous scattering sources, such as grain boundaries and residual pores. However, in the 1990s the technology to generate a coherent beam from ceramic materials was developed, and a highly efficient laser oscillation was realized. In the future, the technology derived from the development of the ceramic laser could be used to develop new functional passive and active optics. Co-authored by one of the pioneers of this field, the book describes the fabrication technology and theoretical characterization of ceramic material properties. It describes novel types of solid lasers and other optics using ceramic materials to demonstrate the application of ceramic gain media in the generation of coherent beams and light amplification. This is an invaluable guide for physicists, materials scientists and engineers working on laser ceramics.
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