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Concise encyclopedia of self-propagating high-temperature synthesis : history, theory, technology, and products /
The Concise Encyclopedia of Self-Propagating High-Temperature Synthesis: History, Theory, Technology, and Products helps students and scientists understand the fundamental concepts behind self-propagating high-temperature synthesis (SHS). SHS-based technologies provide valuable alterations to tradit...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , , , , , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Amsterdam, Netherlands :
Elsevier Science,
[2017]
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| Edición: | First edition. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Concise Encyclopedia of Self-Propagating High-Temperature Synthesis: History, Theory, Technology, and Products; Copyright; Dedication; Contents; Contributors; Preface; 1: Abbreviations; 2: Abrasives; References; 3: Acoustic Effects During SHS; References; 4: Aerospace Applications; References; 5: Alloys of Transition Metals; References; 6: Aluminides; References; 7: Aluminum Nitride; References; 8: Applications of Reactive Multilayer Foils; References; 9: Auto-Oscillations; References; 10: Azide-Based Technologies; References; 11: Ball Milling-Induced SHS; References.
- 12: BifurcationReferences; 13: Binary Systems; References; 14: Black Ceramics and AlONs; References; 15: Borides; References; 16: Boron Carbide; References; 17: Boron Nitride; References; 18: Casting of Alloys; References; 19: Catalysts; References; 20: Cathodes-Targets; References; 21: Cemented Carbide Tools; References; 22: Cemented Carbides; References; 23: Centrifugal Casting; References; 24: Chalcogenides; References; 25: Chaotic Regimes; References; 26: Chemically Assisted Combustion Synthesis; References; 27: Chromium Borides; References; 28: Combustion Mechanisms; References.
- 29: Combustion of Chromium in NitrogenReferences; 30: Combustion Wave Propagation Over Condensed Matter; 31: Combustion Wave Propagation Velocity; References; 32: Combustion Wave Velocity and Temperature Profile; References; 33: Composite Materials; References; 34: Diamond Containing Tools; References; 35: Discovery of SHS; References; 36: Dissolution-Precipitation; References; 37: DTA/TGA-Based Methods; References; 38: Dynamic Methods of Experimental Diagnostics; References; 39: Electric Probes; References; 40: Electro-Composites Using SCS Powders; References; 41: Electrodes; References.
- 42: Electromagnetic Field Generation in SHSReferences; 43: Electrothermography; References; 44: Elemental Synthesis; References; 45: Emission Phenomena During SHS; References; 46: Emulsion Combustion Synthesis; References; 47: Exothermicity of SHS Reactions; Reference; 48: Experimental Methods; References; 49: Ferrites; References; 50: Ferroalloys; Combustion of Ferrovanadium in Nitrogen; Combustion of Ferro-Silicon in Nitrogen; Ferroniobium Nitriding in the Combustion Mode; Combustion of Ferrotitanium in Nitrogen; Combustion of Ferrochromium in Nitrogen; Combustion of Ferroboron in Nitrogen.
- Reference51: Foams; References; 52: Forced SHS Consolidation; References; 53: Founders: A.G. Merzhanov, I.P. Borovinskaya, V.M. Shkiro; 54: Front of the Combustion Wave; 55: Functionally Graded Materials; References; 56: Fundamentals: Experiment; References; 57: Fundamentals: Theory; References; 58: Gas Transport Technology; References; 59: Grain Growth; Reference; 60: Hard-Facing by Welding; References; 61: Heterogeneous Reactions; References; 62: High Gas Pressure SHS of Ceramics; References; 63: High-Speed Micro Video Recording; References; 64: High-Temperature Superconducting Materials.