Alumina-based nanocomposites fabricated by a novel soaking method

被引:0
|
作者
Leela-Adisorn, Uraiwan [1 ]
Matsunaga, Takuya [1 ]
Choi, Seong-Min [1 ]
Honda, Sawao [1 ]
Awaji, Hideo [1 ]
机构
[1] Nagoya Inst Technol, Showa Ku, Nagoya, Aichi 4668555, Japan
来源
SCIENCE OF ENGINEERING CERAMICS III | 2006年 / 317-318卷
关键词
intra-type nanocomposites; soaking method; pulse electric current sintering; Al2O3/Ni nanocomposites; single edge V-notched beam;
D O I
10.4028/www.scientific.net/KEM.317-318.607
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
Nickel dispersed alumina matrix nanocomposites were fabricated using a novel soaking method. Secondary particles were introduced into the nano-pores of a porous matrix grains by a soaking method, such that gamma-alumina powder was soaked in nickel nitrate solution under vacuum. During pre-calcination, nickel oxide particles were created inside of the nano-pores of gamma-alumina. The alumina powders were then reduced under hydrogen atmosphere to obtain nano-sized metallic nickel embedded in gamma-alumina grains. The alumina-nickel composite powders were sintered by pulse electric current sintering (PECS) technique with a-alumina seeds. The maximum strength of the alumina-nickel nanocomposites was 984 MPa after sintering at 1,450 degrees C with cc-alumina seeds, where the specimen size was 2 x 2 x 10 mm(3). The maximum fracture toughness was 5.5 MPa(.)m(1/2) after sintering at 1,350 degrees C with seeds measured by the single edge V-notched beam (SEVNB) method.
引用
收藏
页码:607 / 610
页数:4
相关论文
共 50 条
  • [21] ALUMINA-BASED CUTTING TOOLS
    EVANS, PE
    HARDIMAN, BP
    MATHUR, BC
    RIMMER, WS
    TRANSACTIONS OF THE BRITISH CERAMIC SOCIETY, 1967, 66 (10): : 523 - &
  • [22] Alumina-Based Porous Materials
    Alexey, Sinitsyn
    Yulia, Spivak
    PROCEEDINGS OF THE 2016 IEEE NORTH WEST RUSSIA SECTION YOUNG RESEARCHERS IN ELECTRICAL AND ELECTRONIC ENGINEERING CONFERENCE (ELCONRUSNW), 2016, : 78 - 81
  • [23] Porous alumina-based ceramic
    Tomilina, EM
    Pronina, OV
    Lukin, ES
    Kagramanov, GG
    GLASS AND CERAMICS, 2000, 57 (5-6) : 210 - 211
  • [24] Alumina-based monolithic capillaries
    Rubi, Emir
    Zajickova, Zuzana
    Svec, Frantisek
    ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2010, 239
  • [25] ALUMINA-BASED PHOSPHATE CEMENT
    Colorado, Henry A.
    Yang, Jenn-Ming
    DEVELOPMENTS IN STRATEGIC MATERIALS AND COMPUTATIONAL DESIGN V, 2015, : 103 - 110
  • [26] Single-wall carbon nanotubes as attractive toughening agents in alumina-based nanocomposites
    Zhan, GD
    Kuntz, JD
    Wan, JL
    Mukherjee, AK
    NATURE MATERIALS, 2003, 2 (01) : 38 - 42
  • [27] Single-wall carbon nanotubes as attractive toughening agents in alumina-based nanocomposites
    Guo-Dong Zhan
    Joshua D. Kuntz
    Julin Wan
    Amiya K. Mukherjee
    Nature Materials, 2003, 2 : 38 - 42
  • [28] New Alumina-Based Novel Ceramic Nanopigments: An Alternative to the Purple of Cassius
    Jastrzezbska, Agnieszka Maria
    Kurtycz, Patrycja
    Olszyna, Andrzej Roman
    Jureczko, Joanna
    Kunicki, Antoni Ryszard
    INTERNATIONAL JOURNAL OF APPLIED CERAMIC TECHNOLOGY, 2014, 11 (04) : 738 - 744
  • [29] A novel bisection method based algorithm to quantify interphase in epoxy alumina nanocomposites
    Singh, Manohar
    Rajendran, Vasantha Kumar
    Pandey, Jeewan Chandra
    COMPUTATIONAL MATERIALS SCIENCE, 2020, 183
  • [30] Paramagnetic defects in alumina nanopowders and alumina-based ceramics
    Kijko, V.S.
    Zabolotskaya, E.V.
    Zolotukhina, L.V.
    Frolov, N.M.
    Dmitriev, I.A.
    Makurin, Yu.N.
    Steklo i Keramika, 2001, (03): : 33 - 36
12345