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100   $a20141201h20152015  uy|            0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 00$aNitride ceramics $ecombustion synthesis, properties, and applications /$fedited by Alexander A. Gromov and Liudmila N. Chukhlomina
210  1$aWeinheim, Germany :$cWiley-VCH, Verlag GmbH & Company KGaA,$d[2015]
210  4$dİ2015
215   $a1 online resource (746 p.)
300   $aDescription based upon print version of record.
311   $a1-322-31772-0 
311   $a3-527-33755-5 
320   $aIncludes bibliographical references and index.
327   $aCover; Related Titles; Title Page; Copyright; Dedication; Foreword; References; List of Contributors; Preface; Chapter 1: Combustion Synthesis of Nitrides for Development of Ceramic Materials of New Generation; 1.1 Introduction; 1.2 Peculiarities of Phase and Structure Formation of Metal and Nonmetal Nitrides in Combustion Mode; 1.3 Dependence of SHS Nitride Composition and Structure on Infiltration Combustion Mode; 1.4 SHS Equipment for Powder Synthesis; 1.5 Synthesis of SHS-Ceramics Based on Silicon and Aluminum Nitrides and SiAlON Powders
327   $a1.6 Direct Production of Materials and Items Based on Nitride Ceramics by SHS Gasostating1.7 Conclusion; References; Chapter 2: Combustion Synthesis of Boron Nitride Ceramics: Fundamentals and Applications; 2.1 Introduction; 2.2 Combustion in Boron-Nitrogen System; 2.3 Mechanism of Structure Formation in CS wave; 2.4 Combustion Synthesis of Nitride-Based Ceramics; 2.5 Final Remarks; References; Chapter 3: Combustion Synthesis of Aluminum Nitride (AlN) Powders with Controlled Grain Morphologies; 3.1 Introduction; 3.2 Combustion Synthesis of Quasi-Aligned AlN Nanowhiskers
327   $a3.3 Enhanced Thermal Conductivity of Polymer Composites Filled with 3D Brush-Like AlN Nanowhiskers by Combustion Method3.4 Growth of Flower-Like AlN by Combustion Synthesis Assisted with Mechanical Activation; 3.5 Combustion Synthesis of AlN Porous-Shell Hollow Spheres; 3.6 Summary and Conclusions; References; Chapter 4: Combustion Synthesis and Spark Plasma Sintering of ?-SiAlON; 4.1 Introduction; 4.2 CS of High-Purity ?-SiAlON and Densification by SPS; 4.3 Physical Properties of CS-SPSed ?-SiAlON; 4.4 Corrosion Resistance; 4.5 Conclusions of This Chapter; References
327   $aChapter 5: Combustion Synthesis of AlN (Al3O3N), BN, ZrN, and TiN in Air and Ceramic Application5.1 Thermochemical Features of Aluminum Particles Combustion (Theoretical Background); 5.2 Chemical Features of Metals Combustion in Air (Experimental Background); 5.3 Nitrides (Oxynitrides) Formation by Metal Powder Combustion in Air; 5.4 Application of the Synthesized Nitrides and Oxynitrides in Dense Ceramics; References; Chapter 6: Combustion Synthesis of Nitrides of Vanadium, Niobium, and Tantalum; 6.1 Introduction; 6.2 Experimental Methods of Approach; 6.3 Results and Discussion
327   $a6.4 ConclusionsReferences; Chapter 7: Synthesis of Nitrides by SHS of Ferroalloys in Nitrogen; 7.1 Introduction; 7.2 Synthesis of Silicon Nitride by Combustion of Ferrosilicon in Nitrogen; 7.3 Synthesis of Vanadium Nitride by Combustion of Ferrovanadium in Nitrogen; 7.4 Synthesis of Niobium Nitride by Combustion of Ferroniobium in Nitrogen; 7.5 Synthesis of Titanium Nitride by Combustion of Ferrotitanium in Nitrogen; 7.6 Combustion of Ferrochromium in Nitrogen and Synthesis of Chromium Nitride; 7.7 Combustion of Ferroboron in Nitrogen and Synthesis of Boron Nitride
327   $a7.8 Application Prospects of Products of Combustion of Ferroalloys in Nitrogen
330   $aA comprehensive overview of recent developments in the field of non-oxide ceramics with special emphasis placed on the combustion synthesis of group III-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 i
606   $aCeramic materials
606   $aNitrides
606   $aCeramics
615  0$aCeramic materials.
615  0$aNitrides.
615  0$aCeramics.
676   $a666
702   $aGromov$b Alexander
702   $aChukhlomina$b Liudmila N.
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910132344103321
996   $aNitride ceramics$91980475
997   $aUNINA