Influence of Graphene and Graphene Oxide on Properties of Spark Plasma Sintered Si3N4 Ceramic Matrix

被引：19

作者：

Balazsi, Katalin ^{[1
]}

Furko, Monika ^{[1
]}

Klimczyk, Piotr ^{[2
]}

Balazsi, Csaba ^{[1
]}

机构：

[1] Inst Tech Phys & Mat Sci, Ctr Energy Res, Konkoly Thege N Str 29-33, H-1121 Budapest, Hungary

[2] Inst Adv Mfg Technol, Res Network Lukasiewicz, Wroclawska 37A, PL-30011 Krakow, Poland

来源：

CERAMICS-SWITZERLAND | 2020年 / 3卷 / 01期

关键词：

multilayered graphene; graphene oxide; SPS; Si3N4; ceramic composite; SILICON-NITRIDE; MECHANICAL-PROPERTIES; MULTILAYER GRAPHENE; ROOM; NANOCOMPOSITES; CONDUCTIVITY; COMPOSITES; GRAPHITE;

D O I：

10.3390/ceramics3010005

中图分类号：

TQ174 [陶瓷工业]; TB3 [工程材料学];

学科分类号：

0805 ; 080502 ;

摘要：

The sintering of ceramic matrix composites is usually carried out by raising the sintering temperature below the melting point of components. Spark plasma sintering (SPS) has the capability to densify ceramics at a relatively low temperature in a very short time. Two different additions, multilayered graphene (MLG) and graphene oxide (GrO), were added to Si3N4 ceramic matrix in various amount; 5 wt% and 30 wt%. The influence of reinforcing phase on final properties of spark plasma sintered Si3N4 composite was studied. The uniaxial-pressure-assisted SPS sintering resulted in a preferential alignment of both type of graphene in the Si3N4 ceramic matrix, leading to highly anisotropic properties with lower mechanical behavior but better tribological and electrical properties.

引用

页码：40 / 50

页数：11

共 35 条

[1] LIMITATIONS ON THE USE OF CERAMICS IN UNLUBRICATED SLIDING APPLICATIONS DUE TO TRANSFER LAYER FORMATION [J].

ANDERSSON, P ;

HOLMBERG, K .

WEAR, 1994, 175 (1-2) :1-8

[2] Extraordinary Thermal Conductivity of Graphene: Possible Applications in Thermal Management [J].

Balandin, A. A. ;

Ghosh, S. ;

Nika, D. L. ;

Pokatilov, E. P. .

GRAPHENE, GE/III-V, AND EMERGING MATERIALS FOR POST-CMOS APPLICATIONS 2, 2010, 28 (05) :63-71

[3] Preparation and characterization of carbon nanotube reinforced silicon nitride composites [J].

Balázsi, C ;

Kónya, Z ;

Wéber, F ;

Biró, LP ;

Arató, P .

MATERIALS SCIENCE & ENGINEERING C-BIOMIMETIC AND SUPRAMOLECULAR SYSTEMS, 2003, 23 (6-8) :1133-1137

[4] Si3N4/graphene nanocomposites for tribological application in aqueous environments prepared by attritor milling and hot pressing [J].

Balazsi, Csaba ;

Fogarassy, Zsolt ;

Tapaszto, Orsolya ;

Kailer, Andreas ;

Schroeder, Christian ;

Parchoviansky, Milan ;

Galusek, Dusan ;

Dusza, Jan ;

Balazsi, Katalin .

JOURNAL OF THE EUROPEAN CERAMIC SOCIETY, 2017, 37 (12) :3797-3804

[5] Wear damage of Si3N4-graphene nanocomposites at room and elevated temperatures [J].

Balko, Jan ;

Hvizdos, Pavol ;

Dusza, Jan ;

Balazsi, Csaba ;

Gamcova, Jana .

JOURNAL OF THE EUROPEAN CERAMIC SOCIETY, 2014, 34 (14) :3309-3317

[6] The electronic properties of graphene [J].

Castro Neto, A. H. ;

Guinea, F. ;

Peres, N. M. R. ;

Novoselov, K. S. ;

Geim, A. K. .

REVIEWS OF MODERN PHYSICS, 2009, 81 (01) :109-162

[7]

Furko M., 2019, RESOL DISCOV, V4, P21, DOI [10.1556/2051.2019.00066, DOI 10.1556/2051.2019.00066]

[8]

Hampshire S., 2007, JAMME, V24, P43

[9]

Hvizdos P, 2011, NANOFIBERS - PRODUCTION, PROPERTIES AND FUNCTIONAL APPLICATIONS, P241

[10]

Hyuga H, 2001, CERAM ENG SCI PROC, V22, P197

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