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100   $a20150227h20152015  uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aTitanium powder metallurgy $escience, technology and applications /$fMa Qian, Francis H. (Sam) Froes ; contributors, Stanley Abkowitz [and sixty-four others]
210  1$aWaltham, Massachusetts ;$aOxford, England :$cButterworth-Heinemann,$d2015.
210  4$d©2015
215   $a1 online resource (649 p.)
300   $aDescription based upon print version of record.
311   $a1-322-96310-X 
311   $a0-12-800054-6 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aCover; Title page; Copyright Page; Contents; List of contributors; About the editors; Preface; 1 - A historical perspective of titanium powder metallurgy; 1.1 - Introduction; 1.2 - The early years (late 1940s to early 1950s); 1.3 - The 1980 TMS Conference; 1.4 - Developments 1980-present; 1.5 - Developments in the PA/HIP technology; 1.6 - The BE method; 1.7 - Metal injection molding; 1.8 - Additive manufacturing; 1.9 - Other developments; 1.10 - Research-based processes; 1.11 - The 2011 conference on titanium PM; 1.12 - Thoughts for the future; Acknowledgments; References
327   $a2 - Conventional titanium powder production2.1 - Introduction; 2.2 - Prealloyed spherical powder (conventional titanium powder production); 2.3 - Gas atomization; 2.4 - Plasma rotating electrode process; 2.5 - Electrode induction-melting gas atomization; 2.6 - Plasma atomization; 2.7 - Induction plasma spheroidization; 2.8 - Conclusions; References; 3 - Production of titanium powder by an electrolytic method and compaction of the powder; 3.1 - Introduction; 3.2 - New and advanced processing; 3.3 - Electrolytic production of titanium powder; 3.4 - Titanium alloy powder
327   $a3.5 - Compaction of electrolytically produced titanium powderReferences; 4 - Titanium powder production via the Metalysis process; 4.1 - Introduction; 4.2 - FFC® process overview; 4.3 - Preforms: evolution to elimination; 4.4 - Titanium alloys via the FFC® process; 4.5 - Metalysis titanium powder characterization; 4.6 - Additive manufacturing (AM); 4.7 - Hot isostatic pressing; 4.8 - Spark plasma sintering (SPS) and hot rolling; 4.9 - Summary; Acknowledgments; References; 5 - Direct titanium powder production by metallothermic processes; 5.1 - Introduction; 5.2 - Precursors
327   $a5.3 - Reducing agents5.4 - Reactor type; 5.5 - Separation principle; 5.6 - Recent developments; 5.7 - Concluding remarks; References; 6 - Research-based titanium powder metallurgy processes; 6.1 - Introduction; 6.2 - Rapid solidification, mechanical alloying, and vapor deposition; 6.3 - Thermohydrogen processing (THP); 6.4 - Porous structures; Acknowledgments; References; 7 - Titanium powders from the hydride-dehydride process; 7.1 - Introduction; 7.2 - HDH titanium feedstock; 7.3 - The HDH process; 7.3.1 - Process background; 7.4 - The hydriding process; 7.4.1 - Furnace seals and leaks
327   $a7.4.2 - Hydriding7.4.3 - Preparing to size hydride; 7.4.4 - Sizing of hydride; 7.5 - The dehydriding process; 7.6 - Dehydride recovery; 7.7 - Magnetic separation and acid washing; 7.8 - Interstitial contents; 7.9 - Screening and screen specifications; 7.10 - Laser specifications; 7.11 - Powder morphologies; 7.12 - Spherical powders; 7.13 - Summary; References; 8 - Low-cost titanium hydride powder metallurgy; 8.1 - Introduction; 8.2 - Titanium hydride: physical and mechanical properties and phase transformations upon heating; 8.3 - Surface contamination of titanium hydride powder
327   $a8.4 - PM processing of CP Ti
330   $a 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 
606   $aPowder metallurgy
606   $aTitanium alloys
615  0$aPowder metallurgy.
615  0$aTitanium alloys.
676   $a669/.7322
700   $aQian$b Ma$01595421
702   $aFroes$b F. H.
702   $aAbkowitz$b Stanley
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910825001403321
996   $aTitanium powder metallurgy$93916388
997   $aUNINA