2015
DOI: 10.1134/s2075113315050032
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Methods of compacting nanostructured tungsten–cobalt alloys from Nanopowders obtained by plasma chemical synthesis

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Cited by 24 publications
(5 citation statements)
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“…When heating the WC nanopowders, adsorbed oxygen reacts with carbon and forms CO 2 [59,60]. This results in a decrease in the carbon concentration in α-WC nanopowders and facilitates the formation of η-phase particles in the WC-Co system [3,5,81,91]. Figure 11 shows photographic images of UFG hard alloys obtained by SPS from WC-10Co plasma-chemical nanopowders with various concentrations of graphite.…”
Section: Sintering Of Nanopowdersmentioning
confidence: 99%
See 1 more Smart Citation
“…When heating the WC nanopowders, adsorbed oxygen reacts with carbon and forms CO 2 [59,60]. This results in a decrease in the carbon concentration in α-WC nanopowders and facilitates the formation of η-phase particles in the WC-Co system [3,5,81,91]. Figure 11 shows photographic images of UFG hard alloys obtained by SPS from WC-10Co plasma-chemical nanopowders with various concentrations of graphite.…”
Section: Sintering Of Nanopowdersmentioning
confidence: 99%
“…Note also that, for the purposes of obtaining nano-and UFG hard alloys, DC arc plasma synthesis of refractory carbide nanopowders has an apparent potential [80][81][82][83]. It has been demonstrated that DC arc plasma synthesis technology allows SPS to be used to obtain specimens of tungsten carbide and hard alloys with high properties (hardness, fracture toughness) [84][85][86][87].…”
Section: Introductionmentioning
confidence: 99%
“…При участии Ю.В. Благовещенского методом плазмохимического синтеза впервые были получены нанопорошки WC и сплавов WC-Co для производства ТС нового поколения [29]. Данные порошки нашли применение в СВС-технологии получения наномодифицированных сплавов [20,21].…”
Section: историческая справкаunclassified
“…За счет использования плазмохимического WC, введения ингибиторов и оптимизации технологии получения смеси WC-Co авторы получили ультрадисперсные сплавы. Методом электроискрового плазменного спекания порошков WC-Co с различным содержанием кобальта были получены сплавы с повышенными, по мнению авторов, свойствами, которые должны определить перспективу дальнейшего развития отечественных твердых сплавов [29,30].…”
Section: историческая справкаunclassified
“…The application of the SPS technology makes it possible to reduce the sintering temperatures by 200 °C, which preserves the WC grain size, uses alternative molds [ 55 ], and provides reactive synthesis [ 56 ]. Considerable experience has been accumulated in using traditional and modern methods of sintering WC-Co nanopowders produced by plasma chemical synthesis [ 57 ]. The influence of carbon on the SPS kinetics of WC-10wt%Co nano- and submicron powders has been investigated [ 58 ].…”
Section: Introductionmentioning
confidence: 99%