Synthesis of Si3N4-Based Powder Composites for Ceramic Fabrication by Spark Plasma Sintering

被引:4
|
作者
Andreev, P. V. [1 ,2 ]
Alekseeva, L. S. [2 ]
Rostokina, E. E. [1 ]
Drozhilkin, P. D. [2 ]
Balabanov, S. S. [1 ]
Murashov, A. A. [2 ]
Karazanov, K. O. [2 ]
机构
[1] Russian Acad Sci, Devyatykh Inst Chem High Pur Subst, Nizhnii Novgorod 603951, Russia
[2] Lobachevsky State Univ, Nizhnii Novgorod 603022, Russia
来源
INORGANIC MATERIALS | 2022年 / 58卷 / 10期
基金
俄罗斯基础研究基金会;
关键词
silicon nitride; ceramics; sintering; powder composite;
D O I
10.1134/S0020168522100016
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
There were examined four ways of applying sintering additives (Y2O3 : Al2O3 = 3 : 5) to particles of commercial Si3N4 powders differing in particle size composition: amorphous nanopowder and microcrystalline alpha-Si3N4 powder. The oxide sintering additive coating was produced in two steps: wet chemical preparation of the starting Si3N4 powder with compounds containing yttrium and aluminum ions and annealing of the resultant powder composites at a temperature of 1000 degrees C in air. The way the sintering addition is applied and the particle size composition of the starting Si3N4 powder have been shown to influence the composition of the crystalline phases forming during annealing. The optimal process for obtaining Si3N4 ceramics with improved physical and mechanical properties is spray drying, which makes it possible to obtain spherical agglomerates.
引用
收藏
页码:1098 / 1104
页数:7
相关论文
共 50 条
  • [31] STRUCTURE AND CHARACTERISTICS OF SI3N4-BASED CERAMIC CUTTING TOOLS
    GNESIN, GG
    YAROSHENKO, VP
    SILICON NITRIDE 93, 1994, 89-9 : 737 - 741
  • [32] Fabrication, thermal shock resistance, and dielectric property of α-Si3N4-based ceramic coating on porous Si3N4 ceramics
    Wang, Chao
    Xia, Yi
    Qiao, Ruiqing
    Zhang, Fan
    Chen, Lijia
    Wang, Zhanjie
    INTERNATIONAL JOURNAL OF APPLIED CERAMIC TECHNOLOGY, 2019, 16 (04) : 1373 - 1380
  • [33] Design of Si3N4-based ceramic laminates by the residual stresses
    Orlovskaya, N
    Kuebler, J
    Subbotin, V
    Lugovy, M
    JOURNAL OF MATERIALS SCIENCE, 2005, 40 (20) : 5443 - 5450
  • [34] Fabrication of Si3N4-based seal coating on porous Si3N4 ceramics
    Shen, Qiang
    Yang, Ying
    Chen, Fei
    Zhang, Lianmeng
    INTERNATIONAL JOURNAL OF MATERIALS & PRODUCT TECHNOLOGY, 2011, 42 (1-2): : 12 - 20
  • [35] Design of Si3N4-based ceramic laminates by the residual stresses
    N. Orlovskaya
    J. Kuebler
    V. Subbotin
    M. Lugovy
    Journal of Materials Science, 2005, 40 : 5443 - 5450
  • [36] Effect of sintering temperature on microstructures and tribological characteristics of dense α-Si3N4-based ceramic coating on porous Si3N4 ceramics
    Wang, Chao
    Wang, Binglei
    Qiao, Ruiqing
    Zhang, Fan
    Wang, Zhanjie
    Chen, Lijia
    JOURNAL OF ALLOYS AND COMPOUNDS, 2019, 776 : 927 - 933
  • [37] Sintering of β-Si3N4 Powder and Thermal Conductivity of the Ceramic
    Peng Mengmeng
    Ning Xiaoshan
    RARE METAL MATERIALS AND ENGINEERING, 2013, 42 : 404 - 407
  • [38] Sintering of Si3N4 nano-powder prepared by plasma synthesis
    Balog, M.
    Vysocka, A.
    Zalite, I.
    Lences, Z.
    KOVOVE MATERIALY-METALLIC MATERIALS, 2007, 45 (04): : 195 - 198
  • [39] Tribological Properties of ZrN-Si3N4-TiN Composites Consolidated by Spark Plasma Sintering
    Zgalat-Lozynskyy, O. B.
    Ieremenko, L. I.
    Tkachenko, I., V
    Grinkevich, K. E.
    Ivanchenko, S. E.
    Zelinskiy, A., V
    Shpakova, G., V
    Ragulya, A., V
    POWDER METALLURGY AND METAL CERAMICS, 2022, 60 (9-10) : 597 - 607
  • [40] Densification, microstructure, and fracture behavior of TiC/Si3N4 composites by spark plasma sintering
    Bai Ling
    Ge Changchun
    Shen Weiping
    Mao Xiaodong
    Zhang Ke
    RARE METALS, 2008, 27 (03) : 315 - 319
12345