Spark-plasma sintering and related field-assisted powder consolidation technologies /

Spark-plasma sintering and related field-assisted powder consolidation technologies / / edited by Eugene A. Olevsky.

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Electromagnetic field-assisted sintering techniques have increasingly attracted attention of scientists and technologists. Spark-plasma sintering (SPS) and other field-assisted powder consolidation approaches provide remarkable capabilities to the processing of materials into configurations previous...

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Bibliographic Details
TeilnehmendeR:
Olevsky, Eugene A.,
Place / Publishing House:Basel, Switzerland : : MDPI - Multidisciplinary Digital Publishing Institute,, [2017]
©2017
Year of Publication:2017
Language:English
Physical Description:1 online resource (vii, 181 pages) :; illustrations
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520 |a Electromagnetic field-assisted sintering techniques have increasingly attracted attention of scientists and technologists. Spark-plasma sintering (SPS) and other field-assisted powder consolidation approaches provide remarkable capabilities to the processing of materials into configurations previously unattainable. Of particular significance is the possibility of using very fast heating rates, which, coupled with the field-assisted mass transport, stand behind the purported ability to achieve high densities during consolidation and to maintain the nanostructure of consolidated materials via these techniques. Potentially, SPS and related technologies have many significant advantages over the conventional powder processing methods, including the lower process temperature, the shorter holding time, dramatically improved properties of sintered products, low manufacturing costs, and environmental friendliness. 
504 |a Includes bibliographical references. 
505 0 |a About the Guest Editor. V -- Preface to "Spark-Plasma Sintering and Related Field-Assisted Powder Consolidation Technologies" VII -- Formation of Aluminum Particles with Shell Morphology during Pressureless Spark Plasma Sintering of Fe-Al Mixtures: Current-Related or Kirkendall Effect? -- Reprinted from: Materials 2016, 9(5), 375; doi:10.3390/ma9050375 -- http://www.mdpi.com/1996-1944/9/5/375. 1 -- The Manufacturing of High Porosity Iron with an Ultra-Fine Microstructure via Free Pressureless Spark Plasma Sintering -- Reprinted from: Materials 2016, 9(6), 495; doi:10.3390/ma9060495 -- http://www.mdpi.com/1996-1944/9/6/495 11 -- Spark Plasma Co-Sintering of Mechanically Milled Tool Steel and High Speed Steel Powders -- Reprinted from: Materials 2016, 9(6), 482; doi:10.3390/ma9060482 -- http://www.mdpi.com/1996-1944/9/6/482 20 -- Bonding of TRIP-Steel/Al-O-(3Y)-TZP Composites and (3Y)-TZP Ceramic by a Spark Plasma Sintering (SPS) Apparatus -- Reprinted from: Materials 2016, 9(7), 558; doi:10.3390/ma9070558 -- http://www.mdpi.com/1996-1944/9/7/558. 34 -- Microstructure and Electrical Properties of AZO/Graphene Nanosheets Fabricated by -- Spark Plasma Sintering -- Reprinted from: Materials 2016, 9(8), 638; doi:10.3390/ma9080638 -- http://www.mdpi.com/1996-1944/9/8/638. 45 -- Zirconium Carbide Produced by Spark Plasma Sintering and Hot Pressing: Densification Kinetics, Grain Growth, and Thermal Properties -- Reprinted from: Materials 2016, 9(7), 577; doi: 10.3390/ma9070577 -- http://www.mdpi.com/1996-1944/9/7/577. 56 -- Processing, Mechanical and Optical Properties of Additive-Free ZrC Ceramics Prepared by Spark Plasma Sintering -- Reprinted from: Materials 2016, 9(6), 489; doi:10.3390/ma9060489 -- http://www.mdpi.com/1996-1944/9/6/489. 72 -- The Effect of Lithium Doping on the Sintering and Grain Growth of SPS-Processed, Non- Stoichiometric Magnesium Aluminate Spinel -- Reprinted from: Materials 2016, 9(6), 481, doi: 10.3390/ma9060481 -- http://www.mdpi.com/1996-1944/9/6/481 88 -- Creep of Polycrystalline Magnesium Aluminate Spinel Studied by an SPS Apparatus -- Reprinted from: Materials 2016, 9(6), 493, doi: 10.3390/ma9060493 -- http://www.mdpi.com/1996-1944/9/6/493. 100 -- The Effects of Spark-Plasma Sintering (SPS) on the Microstructure and Mechanical Properties of BaTiO/3Y-TZP Composites -- Reprinted from: Materials 2016, 9(5), 320; doi:10.3390/ma9050320 -- http://www.mdpi.com/1996-1944/9/5/320. 109 -- Liquid Film Capillary Mechanism for Densification of Ceramic Powders during Flash Sintering -- Reprinted from: Materials 2016, 9(4), 280; doi:10.3390/ma9040280 -- http://www.mdpi.com/1996-1944/9/4/280. 118 -- On the Mechanism of Microwave Flash Sintering of Ceramics -- Reprinted from: Materials 2016, 9(8), 684; doi:10.3390/ma9080684 -- http://www.mdpi.com/1996-1944/9/8/684. 126 -- Discussion on Local Spark Sintering of a Ceramic-Metal System in an SR-CT Experiment during Microwave Processing -- Reprinted from: Materials 2016, 9(3), 132; doi:10.3390/ma9030132 -- http://www.mdpi.com/1996-1944/9/3/132 144 -- Microstructure Investigation of 13Cr-Mo ODS Steel Components Obtained by High Voltage Electric Discharge Compaction Technique -- Reprinted from: Materials 2015, 8(11), 7342-7353; doi:10.3390/ma8115381 -- http://www.mdpi.com/1996-1944/8/11/5381. 153 -- Characterizations of Rapid Sintered Nanosilver Joint for Attaching Power Chips -- Reprinted from: Materials 2016, 9(7), 564; doi: 10.3390/ma9070564 -- http://www.mdpi.com/1996-1944/9/7/564. 165. 
650 0 |a Powder metallurgy. 
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700 1 |a Olevsky, Eugene A.,  |e editor. 
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