Superalloys, supercomposites, and superceramics /
Superalloys, Supercomposites and Superceramics.
Saved in:
Corporate Authors: | |
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Group Author: | ; |
Published: |
Academic Press,
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Publisher Address: | Boston : |
Publication Dates: | 1989. |
Literature type: | eBook |
Language: | English |
Series: |
Materials science and technology series
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Subjects: | |
Online Access: |
http://www.sciencedirect.com/science/book/9780126908459 |
Summary: |
Superalloys, Supercomposites and Superceramics. |
Carrier Form: | 1 online resource (xxvii, 755 pages) : illustrations. |
Bibliography: | Includes bibliographical references. |
ISBN: |
9780323140386 0323140386 |
Index Number: | TA485 |
CLC: | TG132.3 |
Contents: |
Front Cover; Superalloys, Supercomposites and Superceramics; Copyright Page; Table of Contents; Contributors; Preface; Foreword; Chapter 1. Introduction-Superalloys; I. Superalloys; II. Superalloy Applications; III. Superalloy History; References; Chapter 2. Resources-Supply and Availability; I. Introduction; II. Strategic Materials; III. Reserves and Resources; IV. The Superalloys; V. COSAM Program Summary; VI. Concluding Remarks; References; Chapter 3. Primary and Secondary Melt Processing-Superalloys; I. Introduction; II. Defects; III. Cleanliness Evaluation; IV. Melting Alternatives. V. Vacuum Induction MeltingVI. Vacuum Arc Remelting; VII. Electroslag Remelting; VIII. Electron Beam Cold Hearth Refining; IX. Plasma Cold Hearth Refining; X. Powder Metallurgy; XI. Fine-Grain Casting; XII. Melt Processing Summary; XIII. The Future; References; Chapter 4. Metallurgy of Investment Cast Superalloy Components; I. History of Superalloy Investment Casting; II. Making the Superalloy Investment Casting Shell; III. Production and Melting of Superalloy Ingot for Investment Casting; IV. Investment Casting Superalloy Components; V. Control of Microstructure through Solidification. VI. Post-Cast ProcessingVII. Nondestructive Inspection of Superalloy Castings; VIII. Future of Investment Cast Superalloy Components; Acknowledgements; References; Chapter 5. Single Crystal Superalloys; I. Introduction; II. Directional Solidification Process; III. Microstructure; IV. Phase Stability; V. Heat Treatment; VI. Compositional Effects; VII. Mechanical Properties; VIII. Oxidation/Hot Corrosion Resistance; IX. Future Directions; References; Chapter 6. Thermomechanical Processing of Superalloys; I. Introduction; II. Selection of the Optimum Manufacturing Practice. III. Control of the Selected ProcessIV. Summary; References; Chapter 7. Alloying Effects on Hot Deformation; I. Introduction; II. Deformation Resistance at High Strain Rate; III. Deformation Resistance at Slow Strain Rate; IV. Hot Workability; V. Summary; Acknowledgement; References; Chapter 8. Powder Metallurgy and Oxide Dispersion Processing of Superalloys; I. Introduction; II. Powder Production and Characterization; III. Consolidation; IV. Defects and Cleanliness; V. Post-Consolidation Processing; VI. Concluding Remarks; Acknowledgements; References. Chapter 9. Oxide Dispersion Strengthened AlloysI. Introduction; II. Microstructure of ODS Alloys; III. Nanostructural and Microstructural Effects on Strength; IV. Microstructural Instabilities; V. Summary; Acknowledgments; References; Chapter 10. Creep-Fatigue Interaction in Structural Alloys; I. Introduction; II. Creep-Fatigue Interaction; III. Mechanisms and Models; IV. Concluding Remarks; References; Chapter 11. Creep and Stress Rupture-Long Term; I. Introduction; II. Data Sources; III. Evaluation of Creep-Rupture Data; IV. Strain-Time Behavior. |