Te and SiC co-doped MgB2 obtained by an ex situ spark plasma sintering technique

2013 ◽  
Vol 68 (6) ◽  
pp. 428-431 ◽  
Author(s):  
G. Aldica ◽  
S. Popa ◽  
M. Enculescu ◽  
P. Badica
Keyword(s):  
Spark Plasma Sintering ◽  
Ex Situ ◽  
Plasma Sintering ◽  
Spark Plasma ◽  
Doped Mgb2 ◽  
Co Doped

Ge-Added MgB2 Superconductor Obtained by Ex Situ Spark Plasma Sintering

2014 ◽  
Vol 28 (2) ◽  
pp. 531-534 ◽  
Author(s):  
D. Batalu ◽  
G. Aldica ◽  
M. Burdusel ◽  
S. Popa ◽  
M. Enculescu ◽  
...  
Keyword(s):  
Spark Plasma Sintering ◽  
Ex Situ ◽  
Mgb2 Superconductor ◽  
Plasma Sintering ◽  
Spark Plasma

scholarly journals Luminescence properties of the Mg co–doped Ce:SrHfO3 ceramics prepared by the Spark Plasma Sintering Method

2016 ◽  
Vol 90 ◽  
pp. 287-291 ◽  
Author(s):  
Hiroyuki Chiba ◽  
Shunsuke Kurosawa ◽  
Koichi Harata ◽  
Rikito Murakami ◽  
Akihiro Yamaji ◽  
...  
Keyword(s):  
Spark Plasma Sintering ◽  
Luminescence Properties ◽  
Plasma Sintering ◽  
Spark Plasma ◽  
Sintering Method ◽  
Co Doped

scholarly journals Synthesis of Ceramic Reinforcements in Metallic Matrices during Spark Plasma Sintering: Consideration of Reactant/Matrix Mutual Chemistry

Ceramics ◽  
2021 ◽  
Vol 4 (4) ◽  
pp. 592-599
Author(s):  
Dina V. Dudina ◽  
Tomila M. Vidyuk ◽  
Michail A. Korchagin
Keyword(s):  
Spark Plasma Sintering ◽  
Structural Evolution ◽  
Ceramic Composites ◽  
Ex Situ ◽  
Full Density ◽  
Powder Materials ◽  
Plasma Sintering ◽  
Processing Step ◽  
Spark Plasma

Metal–ceramic composites are obtained via ex-situ or in-situ routes. The in-situ route implies the synthesis of reinforcement in the presence of a matrix and is often regarded as providing more flexibility to the microstructure design of composites than the ex-situ route. Spark plasma sintering (SPS) is an advanced sintering method that allows fast consolidation of various powder materials up to full or nearly full density. In reactive SPS, the synthesis and consolidation are combined in a single processing step, which corresponds to the in-situ route. In this article, we discuss the peculiarities of synthesis of ceramic reinforcements in metallic matrices during SPS with a particular consideration of reactant/matrix mutual chemistry. The formation of carbide reinforcements in Cu, Al, and Ni matrices is given attention with examples elaborated in the authors’ own research. Factors determining the suitability of reactive SPS for manufacturing of composites from a matrix/reactants system and features of the structural evolution of the reaction mixture during sintering are discussed.

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