Details
Phase Transformation and Properties
De Gruyter STEM 1. Aufl.
79,95 € |
|
Verlag: | De Gruyter |
Format: | EPUB |
Veröffentl.: | 07.12.2020 |
ISBN/EAN: | 9783110492705 |
Sprache: | englisch |
Anzahl Seiten: | 351 |
DRM-geschütztes eBook, Sie benötigen z.B. Adobe Digital Editions und eine Adobe ID zum Lesen.
Beschreibungen
<p>This textbook illustrates one-component phase diagrams, binary equilibrium phase diagrams and ternary phase diagrams for ceramics, polymers and alloys by presenting case studies on preparation processes, and provides up-to-date information on nano-crystal materials, non-crystal materials and functional materials. As second volume in the set, it is an extension of the first volume on physical aspect of materials. </p>
Table of Content:
<br>Chapter 1 Deformation and recrystallization of materials
<br>1.1 Elasticity and viscoelasticity
<br>1.3 Plastic deformation of crystals
<br>1.3 Recovery and recrystallization
<br>1.4 Thermal deformation and dynamic recovery and recrystallization
<br>1.5 Ceramics deformations
<br>1.6 Macropolymer deformations
<br>References
<br>Chapter 2 One-component system phase diagrams and solidification of pure crystals
<br>2.1 Thermodynamics and phase equilibrium in one-component system
<br>2.2 Solidification of pure crystals
<br>2.3 Gas-solid phase transformation and film growth
<br>2.4 Crystallization characteristics of polymers
<br>Chapter 3 Binary equilibrium phase diagrams and principles solidification and preparation of alloys
<br>3.1 Expression and measurement of phase diagrams
<br>3.2 Thermodynamics of phase diagrams
<br>3.3 Analysis of binary equilibrium phase diagrams
<br>3.4 Solidification theory of binary alloys
<br>3.5 Polymer alloy
<br>3.6 Ceramic alloy
<br>Chapter 4 Ternary phase diagrams
<br>4.1 Fundamentals of ternary phase diagrams
<br>4.3 Ternary phase diagrams for unlimited solid solubility
<br>4.4 Ternary phase diagrams for limited solid solubility
<br>4.4 Ternary phase diagrams constructed by two binary eutectic systems and one binary isomorphous system
<br>4.5 Ternary eutectic-peritectic phase diagrams
<br>4.6 Ternary peritectic phase diagrams containing four-phase equilibrium reactions
<br>4.7 Ternary phase diagram having stable compounds
<br>4.8 Examples of ternary phase diagrams
<br>4.9 Summary
<br>Chapter 5 Metastable state of materials
<br>5.1 Nanocrystalline materials
<br>5.2 Quasi-crystalline state
<br>5.3 Amorphous materials
<br>5.4 Metastable phase by solid state phase transformation
<br>Chapter 6 Functional characteristics of materials
<br>6.1 Functional materials and physical fundamentals
<br>6.3 Electrical properties
<br>6.3 Thermal properties
<br>6.4 Magnetic properties
<br>6.5 Optical properties
<br>References
<br>
<br>Chapter 1 Deformation and recrystallization of materials
<br>1.1 Elasticity and viscoelasticity
<br>1.3 Plastic deformation of crystals
<br>1.3 Recovery and recrystallization
<br>1.4 Thermal deformation and dynamic recovery and recrystallization
<br>1.5 Ceramics deformations
<br>1.6 Macropolymer deformations
<br>References
<br>Chapter 2 One-component system phase diagrams and solidification of pure crystals
<br>2.1 Thermodynamics and phase equilibrium in one-component system
<br>2.2 Solidification of pure crystals
<br>2.3 Gas-solid phase transformation and film growth
<br>2.4 Crystallization characteristics of polymers
<br>Chapter 3 Binary equilibrium phase diagrams and principles solidification and preparation of alloys
<br>3.1 Expression and measurement of phase diagrams
<br>3.2 Thermodynamics of phase diagrams
<br>3.3 Analysis of binary equilibrium phase diagrams
<br>3.4 Solidification theory of binary alloys
<br>3.5 Polymer alloy
<br>3.6 Ceramic alloy
<br>Chapter 4 Ternary phase diagrams
<br>4.1 Fundamentals of ternary phase diagrams
<br>4.3 Ternary phase diagrams for unlimited solid solubility
<br>4.4 Ternary phase diagrams for limited solid solubility
<br>4.4 Ternary phase diagrams constructed by two binary eutectic systems and one binary isomorphous system
<br>4.5 Ternary eutectic-peritectic phase diagrams
<br>4.6 Ternary peritectic phase diagrams containing four-phase equilibrium reactions
<br>4.7 Ternary phase diagram having stable compounds
<br>4.8 Examples of ternary phase diagrams
<br>4.9 Summary
<br>Chapter 5 Metastable state of materials
<br>5.1 Nanocrystalline materials
<br>5.2 Quasi-crystalline state
<br>5.3 Amorphous materials
<br>5.4 Metastable phase by solid state phase transformation
<br>Chapter 6 Functional characteristics of materials
<br>6.1 Functional materials and physical fundamentals
<br>6.3 Electrical properties
<br>6.3 Thermal properties
<br>6.4 Magnetic properties
<br>6.5 Optical properties
<br>References
<br>
<p><strong>Xun Cai</strong>, <strong>Yonghua Rong</strong>, <strong>Gengxiang Hu</strong>, Shanghai Jiaotong University</p>