Buch, Englisch
Reihe: Cohesion and Structure
Transition Metal Alloys
Buch, Englisch
Reihe: Cohesion and Structure
ISBN: 978-0-444-87098-8
Verlag: Elsevier Science & Technology
Complete collection of phase diagrams;
- Up-to-date experimental information and bibliography on thermochemical data;
- Formation enthalpies as predicted by the Miedema model for binary solid and liquid solutions and compounds.
The first volume in this series presents a complete collection of heat of formation data on binary intermetallic compounds that contain at least one transition metal.
Both solid compounds and liquid alloys are considered. A complete table of model predictions is given for systems which lack this experimental information and the origin of the model and the accuracy of the predictions are discussed extensively. Furthermore, the authors demonstrate the applicability of the atomic model in predicting energy effects in metal science in general. When surface energies and vacancy-formation energies of pure metals and model values for enthalpies of alloying are available, one can deal with a large variety of problems. Examples include the heat of reaction in metal chemistry, formation of ternary hydrides, stability of solid-solution phases, interfacial energies, surfaces and interfacial segregation, and the heat of absorption for metallic adsorbates and substrates. Examples relevant to basic physics include core-level shifts in alloys, Mössbauer isomer shift and charge transfer in binary metallic systems.
Cohesion in Metals jetzt bestellen!
- Up-to-date experimental information and bibliography on thermochemical data;
- Formation enthalpies as predicted by the Miedema model for binary solid and liquid solutions and compounds.
The first volume in this series presents a complete collection of heat of formation data on binary intermetallic compounds that contain at least one transition metal.
Both solid compounds and liquid alloys are considered. A complete table of model predictions is given for systems which lack this experimental information and the origin of the model and the accuracy of the predictions are discussed extensively. Furthermore, the authors demonstrate the applicability of the atomic model in predicting energy effects in metal science in general. When surface energies and vacancy-formation energies of pure metals and model values for enthalpies of alloying are available, one can deal with a large variety of problems. Examples include the heat of reaction in metal chemistry, formation of ternary hydrides, stability of solid-solution phases, interfacial energies, surfaces and interfacial segregation, and the heat of absorption for metallic adsorbates and substrates. Examples relevant to basic physics include core-level shifts in alloys, Mössbauer isomer shift and charge transfer in binary metallic systems.
Fachgebiete
- Naturwissenschaften Physik Thermodynamik Festkörperphysik, Kondensierte Materie
- Naturwissenschaften Physik Thermodynamik Physik der Zustandsübergänge
- Naturwissenschaften Physik Thermodynamik Oberflächen- und Grenzflächenphysik, Dünne Schichten
- Naturwissenschaften Chemie Anorganische Chemie Festkörperchemie
- Naturwissenschaften Physik Elektromagnetismus Elektrizität, Elektrodynamik
- Naturwissenschaften Physik Elektromagnetismus Magnetismus
- Naturwissenschaften Physik Elektromagnetismus Halbleiter- und Supraleiterphysik
- Technische Wissenschaften Verfahrenstechnik | Chemieingenieurwesen | Biotechnologie Metallurgie
- Naturwissenschaften Chemie Physikalische Chemie Quantenchemie, Theoretische Chemie
Weitere Infos & Material
Preface. I. A model for energy effects in alloys. II. Fundamentals of the model. III. Experimental and predicted enthalpies of alloy formation. IV. Further applications of the ``Macroscopic Atom' model. V. Some important tables concerning applications of the model.
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