Nanostructured silicon carbide ceramics fabricated through liquid-phase sintering by spark plasma sintering

被引:18
|
作者
Hotta, Mikinori [1 ]
Kita, Hideki [1 ]
Hojo, Junichi [2 ]
机构
[1] Natl Inst Adv Ind Sci & Technol, Adv Mfg Res Inst, Moriyama Ku, Nagoya, Aichi 4638560, Japan
[2] Kyushu Univ, Dept Appl Chem, Fac Engn, Nishi Ku, Fukuoka 8190395, Japan
来源
JOURNAL OF THE CERAMIC SOCIETY OF JAPAN | 2011年 / 119卷 / 1386期
关键词
Silicon carbide; Nanostructure; Spark plasma sintering; Liquid-phase sintering; Densification; Sintering additive; SIC CERAMICS; MECHANICAL-BEHAVIOR; ALUMINUM NITRIDE; GRAIN-GROWTH; MICROSTRUCTURE; DENSIFICATION; ALN; STRENGTH; POWDER; RE2O3;
D O I
10.2109/jcersj2.119.129
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
Fully dense nanostructured SiC ceramics were fabricated by spark plasma sintering of nanosized beta-SiC powder with 40 nm in diameter through liquid-phase sintering at the total content of 10 vol % of sintering additives composed of 95 mol % AIN and 5 mol % Y2O3. The dense SiC ceramics sintered at 1900 degrees C for 300 s consisted of equiaxed grains with the mean grain size of 70 nm without significant grain growth during the sintering. The full densification (>99% of theoretical) of the nanosized beta-SiC powder was achieved at more than 5 vol % of the AIN-Y2O3 additive. The grain size decreased with increasing total amount of AIN-Y2O3 additive and decreasing holding time at 1900 degrees C. (C)2011 The Ceramic Society of Japan. All rights reserved.
引用
收藏
页码:129 / 132
页数:4
相关论文
共 50 条
  • [1] Microstructural development of SiC ceramics by liquid-phase sintering with spark plasma sintering technique
    Hotta, M
    Hojo, J
    ECO-MATERIALS PROCESSING & DESIGN VII, 2006, 510-511 : 1022 - 1025
  • [2] Effect of additive content on liquid-phase sintering on silicon carbide ceramics
    She, JH
    Ueno, K
    MATERIALS RESEARCH BULLETIN, 1999, 34 (10-11) : 1629 - 1636
  • [3] Spark plasma sintered silicon carbide ceramics with nanostructured ferritic alloy as sintering aid
    Hu, Zhihao
    Ning, Kaijie
    Lu, Kathy
    MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2017, 682 : 586 - 592
  • [4] The Spark Plasma Sintering of Silicon Carbide Ceramics Using Alumina
    Unlu, M. D.
    Goller, G.
    Yucel, O.
    Sahin, F. C.
    ACTA PHYSICA POLONICA A, 2014, 125 (02) : 257 - 259
  • [5] Spark plasma sintering of graphene reinforced silicon carbide ceramics
    Bodis, Eszter
    Cora, Ildiko
    Balazsi, Csaba
    Nemeth, Peter
    Karoly, Zoltan
    Klebert, Szilvia
    Fazekas, Peter
    Keszler, Anna M.
    Szepvolgyi, Janos
    CERAMICS INTERNATIONAL, 2017, 43 (12) : 9005 - 9011
  • [6] Bulk boron carbide nanostructured ceramics by reactive spark plasma sintering
    Moskovskikh, D. O.
    Paramonov, K. A.
    Nepapushev, A. A.
    Shkodich, N. F.
    Mukasyan, A. S.
    CERAMICS INTERNATIONAL, 2017, 43 (11) : 8190 - 8194
  • [7] Mechanical properties of nanostructured silicon carbide consolidated by spark plasma sintering
    Lorrette, Christophe
    Reau, Adrien
    Briottet, Laurent
    JOURNAL OF THE EUROPEAN CERAMIC SOCIETY, 2013, 33 (01) : 147 - 156
  • [8] Effects of Current Confinement on the Spark Plasma Sintering of Silicon Carbide Ceramics
    Roman-Manso, Benito
    Belmonte, Manuel
    Isabel Osendi, Maria
    Miranzo, Pilar
    JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 2015, 98 (09) : 2745 - 2753
  • [9] Effects of Current Confinement on the Spark Plasma Sintering of Silicon Carbide Ceramics
    Román-Manso, Benito (mbelmonte@icv.csic.es), 1600, Blackwell Publishing Inc., Postfach 10 11 61, 69451 Weinheim, Boschstrabe 12, 69469 Weinheim, Deutschland, 69469, Germany (98):
  • [10] Silicon carbide ceramics: Mechanical activation, combustion and spark plasma sintering
    Moskovskikh, D. O.
    Song, Y.
    Rouvimov, S.
    Rogachev, A. S.
    Mukasyan, A. S.
    CERAMICS INTERNATIONAL, 2016, 42 (11) : 12686 - 12693
12345