Solidification and solid-state transformation of metals and alloys / Jos�e Antonio Pero-Sanz Elorz, Mar�ia Jos�e Quintana Hern�andes, Luis Felipe Vergeja Gonz�alez.
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TextPublisher: Amsterdam, Netherlands : Elsevier, [2017]Description: 1 online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9780128126080; 0128126086Subject(s): Metals -- Rapid solidification processing | Metallurgy | Solidification | Alloys | TECHNOLOGY & ENGINEERING -- Metallurgy | Alloys | Metallurgy | Metals -- Rapid solidification processing | SolidificationGenre/Form: Electronic books.Additional physical formats: Print version:: Solidification and solid-state transformation of metals and alloys.DDC classification: 669/.94 LOC classification: TS247 | .P47 2017Online resources: ScienceDirect | ScienceDirect | Item type | Current library | Call number | Status | Date due | Barcode |
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Ebooks
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Mysore University Main Library | Not for loan | EBKELV793 |
Front Cover; Solidification and Solid-State Transformations of Metals and Alloys; Copyright; Dedication; Endorsement; Contents; About the Authors; Preface; Acknowledgments; Chapter 1: Solidification of Metals; 1.1. Metals; 1.2. From the Gaseous State to the Crystalline State; 1.3. Crystalline Systems for Metals; 1.4. Solidification Temperature; References; Bibliography; Chapter 2: Phase Transformation Kinetics; 2.1. Surface Free Energy; 2.2. Homogeneous Nucleation and Critical Nucleus Size; 2.3. Discontinuous Nature of Solidification; 2.3.1. Nucleation Rate; 2.3.2. Growth Rate.
2.4. Solidification of a Metal by Continuous Cooling2.4.1. Solidification Curves; 2.4.2. Considerations on the Nuclei Growth With Unidirectional Heat Flow (Chvorinov Law); Bibliography; Chapter 3: Total Insolubility and Solubility in Alloys; 3.1. Total Insolubility Between Two Metals (A and B); 3.1.1. A and B Do Not Have Affinity Between Them; 3.1.2. A and B Form an Intermetallic Compound With Stoichiometric Composition AxBy; 3.1.3. A and B, are Insoluble in Solid State, but Present Eutectic Affinity; 3.2. Solubility; 3.2.1. Substitutional Solid Solutions; 3.2.2. Interstitial Solid Solutions.
3.2.3. Total and Partial Solubility3.2.4. Total Solubility Binary Phase Diagram; References; Bibliography; Chapter 4: Invariant Solidification; 4.1. Introduction; 4.2. System at Equilibrium and the Phase Rule; 4.3. Binary Eutectic Reaction; 4.3.1. Abnormal Eutectics. Al-Si System; 4.3.2. Eutectics With S; 4.3.3. Cu-O Eutectic. Types of Commercial Copper; 4.4. Binary Peritectic Reaction; 4.5. Binary Monotectic Reaction; 4.6. Binary Sintectic Reaction; 4.7. Other Invariant Reactions; 4.8. Computational Calculation Methods (CALPHAD); 4.8.1. Fe-C System; 4.8.2. Al-Si Pressure Variation.
5.2.4.2. Segregations by Changes in the Crystallization Structure5.2.4.3. Segregations in Cracks; 5.2.5. Macrosegregation Indexes; 5.3. Microsegregation; 5.3.1. Homogenization Heat Treatment; 5.4. Nonequilibrium by Eutectic and Peritectic Reactions; References; Bibliography; Chapter 6: Physical Heterogeneities in Solidification; 6.1. Factors That Influence the Columnar Structure; 6.2. Contraction Caused by Solidification; 6.2.1. Shrinkage and Solid Contraction; 6.3. Evolution of Gasses During Solidification; 6.3.1. Boiling Produced by Carbon Monoxide in Steels.
Online resource; title from digital title page (viewed on May 04, 2017).
Using theoretical formulas to obtain realistic data from industrial operations, this resource includes detailed explanations of chemical, physical and thermodynamic phenomena to allow for a more accessible approach that will appeal to a wider audience. -- Edited summary from book.
Includes bibliographical references at the end of each chapters and index.
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