LEADER 04984oam 2200493 450 001 9910826008703321 005 20190911100038.0 010 $a1-62870-368-7 010 $a0-85709-890-X 035 $a(OCoLC)860838094 035 $a(MiFhGG)GVRL6ZPN 035 $a(EXLCZ)992670000000433636 100 $a20130502d2013 uy 0 101 0 $aeng 135 $aurun|---uuuua 181 $ctxt 182 $cc 183 $acr 200 00$aAdvances in powder metallurgy $eproperties, processing and applications /$fedited by Isaac Chang and Yuyuan Zhao 210 1$aOxford :$cWoodhead Publishing,$d2013. 215 $a1 online resource (xix, 604 pages) $cillustrations 225 1 $aWoodhead publishing series in metals and surface engineering ;$vnumber 60 300 $a"ISSN: 2052-5559." 311 $a0-85709-420-3 320 $aIncludes bibliographical references and index. 327 $aCover; Advances in powder metallurgy : Properties, processing and applications; Copyright; Contents; Contributor contact details; Woodhead Publishing Series in Metals and Surface Engineering; Part I Forming and shaping of metal powders; 1Advances in atomisation techniques for the formation of metal powders; 1.1 Introduction; 1.2 Atomisation techniques; 1.3 Problems and advances in gas atomisation; 1.4 Problems and advances in water atomisation; 1.5 Centrifugal atomisation; 1.6 Other atomisation techniques; 1.7 Conclusion; 1.8 References; 2Forming metal powders by electrolysis 327 $a2.1 Background of electrometallurgy and powder metallurgy2.2 Principle and main technological prospects for the FFC Cambridge process; 2.3 Production of metal powders by the FFC Cambridge process; 2.4 Direct route from oxide precursors to alloyed powders; 2.5 Conclusions and future trends; 2.6 Acknowledgement; 2.7 References; 3Mechanochemical synthesis of nanocrystalline metal powders; 3.1 Introduction; 3.2 Mechanochemical processing; 3.3 The process; 3.4 Grain size and process variables; 3.5 Displacement reactions; 3.6 Consolidation; 3.7 Powder contamination; 3.8 Conclusions; 3.9 References 327 $a4Plasma synthesis of metal nanopowders4.1 Introduction; 4.2 Potential benefits and applications of metal nanopowders; 4.3 Electrical arc discharge synthesis of metal nanopowders; 4.4 Conclusions; 4.5 References; 5Warm compaction of metallic powders; 5.1 Introduction; 5.2 Warm compaction process; 5.3 Properties of warm compacted parts; 5.4 Materials and applications; 5.5 Future trends and concluding remarks; 5.6 References; 6Developments in metal injection moulding (MIM); 6.1 Introduction to metal injection moulding; 6.2 Powders for metal injection moulding 327 $a6.3 Binders for metal injection moulding6.4 Mixing and feedstock analysis; 6.5 Injection moulding; 6.6 Binder removal (debinding); 6.7 Sintering; 6.8 Post-sintering; 6.9 Applications and design; 6.10 Conclusion; 6.11 References; Part II Materials and properties; 7Advanced powder metallurgy steel alloys; 7.1 Introduction; 7.2 Composition of advanced pressed and sintered steel components; 7.3 Manufacturing routes for sintered steel components; 7.4 Properties, microstructures and typical products; 7.5 Powder injection moulded steel components; 7.6 Powder metallurgy tool steels 327 $a7.7 Trends in ferrous powder metallurgy7.8 Acknowledgements; 7.9 Further reading; 7.10 References; 8Powder metallurgy of titanium alloys; 8.1 Introduction; 8.2 Powders; 8.3 Near net shapes; 8.4 Additive layer manufacturing and powder injection molding; 8.5 Spraying and research-based processes; 8.6 Future trends; 8.7 Acknowledgements; 8.8 References; 9Metal-based composite powders; 9.1 Introduction; 9.2 Metal-based composite powder production; 9.3 Copper- and aluminium-based composite powder systems; 9.4 Other metal-based composite powders; 9.5 Applications; 9.6 Future trends; 9.7 References 327 $a10Porous metals: foams and sponges 330 $aPowder metallurgy (PM) is a popular metal forming technology used to produce dense and precision components. Different powder and component forming routes can be used to create an end product with specific properties for a particular application or industry. Advances in powder metallurgy explores a range of materials and techniques used for powder metallurgy and the use of this technology across a variety of application areas.Part one discusses the forming and shaping of metal powders and includes chapters on atomisation techniques, electrolysis and plasma synthesis of metallic nanopow 410 0$aWoodhead publishing series in metals and surface engineering ;$vnumber 60. 606 $aPowder metallurgy 615 0$aPowder metallurgy. 676 $a671.37 702 $aChang$b Isaac$g(Isaac Tsz Hong), 702 $aZhao$b Yuyuan 801 0$bMiFhGG 801 1$bMiFhGG 906 $aBOOK 912 $a9910826008703321 996 $aAdvances in powder metallurgy$94048181 997 $aUNINA