Descripción del título
Intermetallics : synthesis,...
More than 80 elements of the Periodic Table are metals showing a broad range of structures, bonding peculiarities and physical properties. Thus, alloys and intermetallic compounds play an important role for modern functional and construction materials. Due to the enormous variety of intermetallics the authors introduce to the broad field on the level of final Master studies and focus on the basic materials
Monografía
monografia Rebiun24957140 https://catalogo.rebiun.org/rebiun/record/Rebiun24957140 m o d | cr -n--------- 150124t20142014gw a o 001 0 eng d 1-5231-0071-0 3-486-99061-6 3-486-85618-9 UPVA 997925769803706 UAM 991008027183204211 UPM 991005787528104212 CBUC 991013153424606708 CBUC 991001023605906712 CBUC 991010358135706709 MiAaPQ eng rda pn MiAaPQ MiAaPQ eng Pöttgen, Rainer author Intermetallics synthesis, structure, function Rainer Pöttgen, Dirk Johrendt Berlin, Germany Boston, Massachusetts Walter de Gruyter GmbH 2014 Berlin, Germany Boston, Massachusetts Berlin, Germany Boston, Massachusetts Walter de Gruyter GmbH 2014 1 online resource (294 p.) 1 online resource (294 p.) De Gruyter Textbook Includes indexes Table of Contents; 1. Introduction; 2. Synthesis; 2.1 Starting Materials Crucible Materials; 2.2 Phase Diagrams Metallography; 2.3 Melting, Annealing and Sintering; 2.4 Arc-Melting; 2.5 Induction Melting; 2.6 Spark Plasma Sintering; 2.7 Metal-flux assisted Synthesis; 2.8 Salt-flux assisted Synthesis; 2.9 Thin Films; 2.10 Chemical Vapor Transport; 2.11 Crystal Growth Techniques; 3. Structure; 3.1 The Metallic Elements; 3.2 Alloys, Solid Solutions, Compounds; 3.3 Ordered Close-packed Structures; 3.4 Chemical Bonding; 3.4.1 The Metallic State of Matter 3.4.2 Approaches to Electronic Structure and Bonding in Extended Structures3.5 Hume-Rothery Phases; 3.6 Laves Phases; 3.7 Zintl Phases; 3.8 Group III Elements; 3.8.1 Borides; 3.8.2 Aluminides; 3.8.3 Gallides; 3.8.4 Indides; 3.8.5 Thallides; 3.9 Tetrelides; 3.9.1 Carbides; 3.9.2 Silicides; 3.9.3 Germanides; 3.9.5 Plumbides; 3.10 Pnictides; 3.10.1 Nitrides; 3.10.2 Phosphides; 3.10.3 Arsenides; 3.10.4 Antimonides; 3.10.5 Bismuthides; 3.11 Chalcogenides; 3.11.1 Suboxides; 3.11.2 Metal-rich Sulphides; 3.11.3 Selenides; 3.11.4 Tellurides; 3.12 Beryllium and Magnesium Intermetallics 3.13 Zinc and Cadmium Intermetallics3.14 Amalgames; 3.15 Aurides and Platinides; 3.16 Hydrides; 3.17 Classification/Hierarchy; 3.18 Quasicrystals; 4. Function; 4.1 Magnetic Properties; 4.2 Superconductivity; 4.3 Thermoelectric Materials; 4.4 Battery Materials; 4.5 Metallic Glasses; Formula Index; Subject Index More than 80 elements of the Periodic Table are metals showing a broad range of structures, bonding peculiarities and physical properties. Thus, alloys and intermetallic compounds play an important role for modern functional and construction materials. Due to the enormous variety of intermetallics the authors introduce to the broad field on the level of final Master studies and focus on the basic materials English Johrendt, Dirk author 3-486-72134-8 De Gruyter Textbook