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Titanium Powder Metallurgy. Science, Technology and Applications

  • Book

  • February 2015
  • Elsevier Science and Technology
  • ID: 3049065

Titanium Powder Metallurgy contains the most comprehensive and authoritative information for, and understanding of, all key issues of titanium powder metallurgy (Ti PM). It summarizes the past, reviews the present and discusses the future of the science and technology of Ti PM while providing the world titanium community with a unique and comprehensive book covering all important aspects of titanium powder metallurgy, including powder production, powder processing, green shape formation, consolidation, property evaluation, current industrial applications and future developments. It documents the fundamental understanding and technological developments achieved since 1937 and demonstrates why powder metallurgy now offers a cost-effective approach to the near net or net shape fabrication of titanium, titanium alloys and titanium metal matrix composites for a wide variety of industrial applications.

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Table of Contents

About the Editors
Preface
1. Introduction
2. Conventional Titanium Powder Production
3. Electrolytic Production of Titanium Powder and Compaction of the Powder
4. The FFC Cambridge Process
5. Direct Titanium Powder Production by Metallothermic Processes
6. Research Based Titanium Powder Processes
7. Production of Titanium Hydride-dehydride Powder
8. Low Cost Titanium Hydride Powder Metallurgy
9. Production of Titanium by The Armstrong Process®
10. Hydrogen Sintering of Titanium and its Alloys
11. Warm Compaction of Titanium and its Alloys
12. Pressureless Sintering of Titanium and its Alloys
13. Spark Plasma Sintering and Hot Pressing of Titanium and its Alloys
14. Microwave Sintering of Titanium and Titanium Hydride
15. Scavenging of Oxygen and Chlorine from PM Titanium During Sintering
16. Titanium Metal Matrix Composites by PM Routes
17. Titanium Components Manufacture from Blended Elemental Powder and the Qualification Process
18. Titanium Components Manufacture from Prealloyed Powder using Hot Isostatic Pressing (HIP)
19. Metal Injection Moulding of Titanium
20. Powder-Processing Linkages to Properties for Complex Titanium Shapes by Injection Moulding
21. Titanium Sheet Fabrication from Powder
22. Cold Spray Processing of Titanium and Titanium Alloy
23. Thermal Spray Forming of Titanium
24. Additive Manufacturing of Titanium
25. Evaluation of Ti PM Products
26. Ti PM: Requirements for Structural Components
27. Powder Metallurgy of Titanium Aluminide
28. Porous Titanium Structures and Applications
29. Microstructural Characterisation of As-sintered Titanium and Titanium Alloys
30. Current and Future Markets for Ti PM
31. Ti PM for the Future

Authors

Ma Qian School of Aerospace, Mechanical and Manufacturing Engineering, RMIT University, Melbourne, Australia. Dr Ma Qian is a Distinguished Professor of the School of Engineering at Royal Melbourne Institute of Technology (RMIT University), Melbourne, Australia. His current research interests include metal additive manufacturing, powder metallurgy of light metals and alloys, solidification processing, metallic biomaterials, high entropy and medium entropy alloys, biomimetic design and lattice materials. He has published 225 peer-reviewed journal papers (nearly 100 papers on titanium), which have attracted more than 8200 Scopus citations as of November 2019 (>7300 excluding self-citations). He initiated the biennial international conference on Titanium Powder Metallurgy in 2011 (co-sponsored by Materials Australia, TiDA, TMS, JSPM and CSM) and served as the Organising Committee Chair and Conference Co-Chair for the Asia-Pacific International Conference on Additive Manufacturing (2017 and 2019). Currently, He serves as an editorial member for a number of journals, including as an Associate Editor for both Acta Materialia and Scripta Materialia. Francis H Froes Materials Science and Engineering Department and Institute for Materials and Advanced Processes, University of Idaho, Moscow, ID, USA. Dr. Froes has been involved in the Titanium field with an emphasis on Powder Metallurgy (P/M) for more than 40 years. He was employed by a primary Titanium producer-Crucible Steel Company-where he was leader of the Titanium group. He was the program manager on a multi-million dollar US Air Force (USAF) contract on Titanium P/M. He then spent time at the USAF Materials Lab where he was supervisor of the Light Metals group (which included Titanium). This was followed by 17 years at the University of Idaho where he was a Director and Department Head of the Materials Science and Engineering Department. He has over 800 publications, in excess of 60 patents, and has edited almost 30 books-the majority on various aspects of Titanium again with an emphasis on P/M. He gave the key-note presentation at the first TDA (ITA) Conference. In recent years he has co-sponsored four TMS Symposia on Cost Effective Titanium featuring numerous papers on P/M. He is a Fellow of ASM, is a member of the Russian Academy of Science, and was awarded the Service to Powder Metallurgy by the Metal Powder Association.