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Nitride Ceramics
Combustion Synthesis, Properties, and Applications
ISBN/EAN: 9783527337552
Umbreit-Nr.: 6760505
Sprache:
Englisch
Umfang: 360 S., 100 s/w Illustr., 15 farbige Illustr., 115
Format in cm: 2.3 x 24.9 x 17.5
Einband:
gebundenes Buch
Erschienen am 17.11.2014
Auflage: 1/2014
- Zusatztext
- A comprehensive overview of recent developments in the field of non-oxide ceramics with special emphasis placed on the combustion synthesis of group I-VI nitrides and oxynitrides. To ensure the widest possible perspective, the authors are experts in academia, industry, or government research, and each chapter discusses different synthetic methods and process parameters, as well as important material properties and applications. The result is invaluable reading for researchers and practitioners in the industry as well as those looking for an introduction to the field. It is equally of great interest to chemists and materials scientists as well as engineers working in the area of inorganic and solid-state chemistry, structural and functional materials, catalysis, metallurgy, and electrochemistry.
- Kurztext
- Nitride and oxynitride ceramics with advanced properties have an expanding range of applications in different branches of industry, including ceramics, surface coatings for electronic devices, energy storage and conversion devices, such as fuel cells, catalysis, as well as biotechnology. This book is a comprehensive overview of recent developments in the field of nitride and oxynitride ceramics with special emphasis placed on the combustion synthesis of group I-VI nitrides and oxynitrides. The authors are experts in academia, industry, or research, and each chapter discusses different synthetic methods and process parameters, as well as important material properties and applications. The result is invaluable reading for researchers and industry as well as those looking for an introduction to the field. It is equally of great interest to chemists and materials scientists as well as engineers working in the area of inorganic and solid-state chemistry, structural and functional materials, catalysis, metallurgy, and electrochemistry. Contains a Foreword by Dr. Hans-Joachim Ritzhaupt-Kleissl
- Autorenportrait
- InhaltsangabeForeword Preface COMBUSTION SYNTHESIS OF NITRIDES FOR DEVELOPMENT OF CERAMIC MATERIALS OF NEW GENERATION Introduction Peculiarities of Phase and Structure Formation of Metal and Nonmetal Nitrides in Combustion Mode Dependence of SHS Nitride Composition and Structure on Infiltration Combustion Mode SHS Equipment for Powder Synthesis Synthesis of SHS-Ceramics Based on Silicon and Aluminum Nitrides and SiAlON Powders Direct Production of Materials and Items Based on Nitride Ceramics by SHS Gasostating Conclusion COMBUSTION SYNTHESIS OF BORON NITRIDE CERAMICS: FUNDAMENTALS AND APPLICATIONS Introduction Combustion in Boron-Nitrogen System Mechanism of Structure Formation in CS Wave Combustion Synthesis of Nitride-Based Ceramics Final Remarks COMBUSTION SYNTHESIS OF ALUMINUM NITRIDE (AIN) POWDERS WITH CONTROLLED GRAIN MORPHOLOGIES Introduction Combustion Synthesis of Quasi-Aligned AlN Nanowhiskers Enhanced Thermal Conductivity of Polymer Composites Filled with 3D Brush-Like AlN Nanowhiskers by Combustion Method Growth of Flower-Like AlN by Combustion Synthesis Assisted with Mechanical Activation Combustion Synthesis of AlN Porous-Shell Hollow Spheres Summary and Conclusions COMBUSTION SYNTHESIS AND SPARK PLASMA SINTERING OF ß-SiAlON Introduction CS of HighPurity ßSiAlON and Densification by SPS Physical Properties of CS-SPSed ß-SiAlON Corrosion Resistance Conclusions of This Chapter COMBUSTION SYNTHESIS OF AlN (Al3O3N), BN, ZrN, AND TiN IN AIR AND CERAMIC APPLICATION Thermochemical Features of Aluminum Particles Combustion (Theoretical Background) Chemical Features of Metals Combustion in Air (Experimental Background) Nitrides (Oxynitrides) Formation by Metal Powder Combustion in Air Applcation of the Synthesized Nitrides and Oxynitrides in Dense Ceramics COMBUSTION SYNTHESIS OF NITRIDES OF VANADIUM, NIOBIUM, AND TANTALUM Introduction Experimental Methods of Approach Results and Discussion Conclusions SYNTHESIS OF NITRIDES BY SHS OF FERROALLOYS IN NITROGEN Introduction Synthesis of Silicon Nitride by Combustion of Ferrosilicon in Nitrogen Synthesis of Vanadium Nitride by Combustion of Ferrovanadium in Nitrogen Synthesis of Niobium Nitride by Combustion of Ferrovniobium in Nitrogen Synthesis of Titanium Nitride by Combustion of Ferrovtitanium in Nitrogen Combustion of Ferrochromium in Nitrogen and Synthesis of Chromium Nitride Combustion of Ferroboron in Nitrogen and Synthesis of Boron Nitride Application Prospects of Products of Combustion of Ferroalloys in Nitrogen Conclusions HALIDES IN SHS AZIDE TECHNOLOGY OF NITRIDES OBTAINING Introduction The Use of Ammonia Halides The Use of Halides of Elements to be Nitrided The Use of Complexing Halides of Elements to be Nitrided and Alkaline Metals The Use of Complexing Halides of Ammonia and Elements to be Nitrided The Use of Halides for Obtaining Refractory Compositions Efficiency of Use of Halides in Azide SHS Systems Chemical Stages of Formation of Nitrides in a Mode SHS-Az Property of SHS-Az Powders Property of SHS-Az Ceramics The Synthesis of Nanostructural SHS-Az Powders Conclusion AlN CERAMICS FROM NANOSIZED PLASMA PROCESSED POWDER, ITS PROPERTIES AND APPLICATION Introduction: AlN Ceramics, its Characteristics and Application Production of AlN Ceramics from Nanosized Plasma Processed Powder Properties of AlN Ceramics from Nanosized Plasma Processed Powder Practical Application of Luminescence Properties of AlN Ceramics Conclusions AN OVERVIEW OF THE APPLICATION OF NITRIDES AND OXYNITRIDES IN PHOTOCATALYSIS AND ELECTROCATALYSIS Introduction Preparation Photocatalysis Electrocatalysis Conclusion CONCLUSION Index