Aerospace materials and material technologies. Volume 2, Aerospace material technologies / N. Eswara Prasad, R.J.H. Wanhill, editors.
Prasad, N. Eswara, editor.; Wanhill, R. J. H., editor.
2016
TL953
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Title Aerospace materials and material technologies. Volume 2, Aerospace material technologies / N. Eswara Prasad, R.J.H. Wanhill, editors.
ISBN 9789811021435 (electronic bk.)
9811021430 (electronic bk.)
9789811021428 (print)
Published Singapore : Springer, [2016]
Copyright ©2017
Language English
Description 1 online resource
Call Number TL953
Dewey Decimal Classification 629.47/2
Summary This book serves as a comprehensive resource on various traditional, advanced and futuristic material technologies for aerospace applications encompassing nearly 20 major areas. Each of the chapters addresses scientific principles behind processing and production, production details, equipment and facilities for industrial production, and finally aerospace application areas of these material technologies. The chapters are authored by pioneers of industrial aerospace material technologies. This book has a well-planned layout in 4 parts. The first part deals with primary metal and material processing, including nano manufacturing. The second part deals with materials characterization and testing methodologies and technologies. The third part addresses structural design. Finally, several advanced material technologies are covered in the fourth part. Some key advanced topics such as "Structural Design by ASIP", "Damage Mechanics-Based Life Prediction and Extension" and "Principles of Structural Health Monitoring" are dealt with at equal length as the traditional aerospace materials technology topics. This book will be useful to students, researchers and professionals working in the domain of aerospace materials.
Access Note Access limited to authorized users.
Source of Description Online resource; title from PDF title page (SpringerLink, viewed November 17, 2016).
Added Author Prasad, N. Eswara, editor.
Wanhill, R. J. H., editor.
Series Indian Institute of Metals series.
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Record Appears in Online Resources > Ebooks
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Foreword by Dr. S. Christopher; Foreword by Dr. G. Satheesh Reddy; Series Editors' Preface; About the Indian Institute of Metals; Genesis and History of the Series; Current Series Information; About This Book; Preface; Acknowledgements; Contents; Editors and Contributors; Processing Technologies; 1 Processing of Aerospace Metals and Alloys: Part 1-Special Melting Technologies; Abstract; 1.1 Introduction; 1.2 Vacuum Induction Melting (VIM); 1.2.1 Functional Principle; 1.2.2 Melting Process; 1.2.3 Process Benefits; 1.2.4 Post-VIM Processing Technologies

1.2.5 Manufacture of Nickel-Base Superalloy Investment Castings for Aerospace Gas Turbines-A Case Study1.3 Remelting Technologies; 1.3.1 Remelting Processes; 1.3.2 Refining Characteristics; 1.3.3 Solidification Phenomena; 1.4 Solidification Defects: Superalloys; 1.4.1 White Spots; 1.4.2 Freckles; 1.4.3 Ring Patterns: 'Tree Rings'; 1.5 Case Study on Melt Processing of a Selected High-Temperature Material, Inconel 718; 1.6 Titanium and Its Alloys; 1.7 Secondary Metallurgical Processes; 1.8 Indian Scenario; 1.9 Summary; Acknowledgments; References

2 Processing of Aerospace Metals and Alloys: Part 2-Secondary ProcessingAbstract; 2.1 Introduction; 2.2 Fundamentals of Metal Forming; 2.3 Bulk Deformation Processes; 2.3.1 Forging; 2.3.2 Rolling; 2.3.3 Extrusion; 2.4 Secondary Processing for Specific Aerospace Materials; 2.4.1 Titanium Alloys; 2.4.2 Superalloys; 2.4.3 Special Steels; 2.5 Recent Advances in Secondary Processing; 2.5.1 Rapid Prototyping Using LENS; 2.5.2 Equal-Channel Angular Extrusion (ECAE); 2.5.3 High-Pressure Torsion (HPT); 2.5.4 Cryomilling; 2.5.5 Vacuum Plasma Spray (VPS) Forming; 2.5.6 Electrodeposition; 2.6 Summary

AcknowledgmentsBibliography; 3 Superplastic Forming of Aerospace Materials; Abstract; 3.1 Introduction; 3.2 Phenomenology of Superplasticity; 3.3 A Review of Basic Research on Superplastic Flow; 3.3.1 Metals and Alloys; 3.3.2 Intermetallics; 3.3.3 Ceramics; 3.3.4 Composites; 3.3.5 Bulk Metallic Glasses; 3.3.6 Effect of FSP on Superplastic Forming; 3.4 Conventional/High Temperature Superplasticity; 3.5 Low Temperature/High Strain-Rate Superplasticity; 3.6 Forming Operations; 3.6.1 Bulge Forming; 3.6.2 Pressure Forming; 3.6.3 Sheet Thermoforming; 3.6.4 Blow (Extrusion) Moulding

3.6.5 Deep Drawing3.6.6 Powder Metallurgy Processes; 3.6.7 Incremental Forming; 3.6.8 SPF/Diffusion Bonding of Titanium Alloys; 3.6.9 Superplastic Roll Forming; 3.7 SPF Tooling; 3.8 Techno-economic Considerations; 3.9 Aerospace Applications; 3.9.1 Aluminium Alloys; 3.9.2 Titanium Alloys; 3.10 Additional Remarks; 3.11 Conclusions; Acknowledgments; References; 4 Welding Technologies in Aerospace Applications; Abstract; 4.1 Developments in Welding Processes; 4.2 Welding of Aerospace Materials; 4.2.1 Aluminium Alloys; 4.2.2 Titanium Alloys; 4.2.3 Nickel-Base Alloys; 4.2.4 Steels

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