Self-glazing dielectric ceramic bodies fabricated from Egyptian rhyodacite and kaolin

被引:8
|
作者
El-Mehalawy, N. [1 ]
Awaad, M. [1 ]
Turky, G. M. [2 ]
Ali-Bik, Mohamed W. [3 ]
Rahim, Said H. Abd El [3 ]
Naga, S. M. [1 ]
机构
[1] Natl Res Ctr, Refractories Ceram & Bldg Mat Dept, El Bohous Str, Cairo 12622, Egypt
[2] Natl Res Ctr, Microwave Phys & Dielect Dept, El Bohous Str, Cairo 12622, Egypt
[3] Natl Res Ctr, Geol Sci Dept, El Bohous Str, Cairo 12622, Egypt
来源
MATERIALS CHEMISTRY AND PHYSICS | 2021年 / 270卷
关键词
Ceramic composites; Self-glazed materials; Rhyodacite; Dielectric properties; Thermo-mechanical properties; ELECTRICAL-CONDUCTIVITY; CRYSTALLIZATION; PORCELAIN; PHASE; MICROSTRUCTURE; RELAXATIONS; KINETICS; MULLITE;
D O I
10.1016/j.matchemphys.2021.124785
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Rhyodacite is a good source of major oxides, as these are contained in its essential mineral components, such as quartz, oligoclase, and albite. Thus, using natural rhyodacite and kaolin, dielectric self-glazing ceramic materials were prepared that exhibit excellent dielectric properties. The obtained materials were sintered at different temperatures to determine their vitrification ranges and optimal sintering temperatures. As well as determining the composition and microstructure of the phases obtained, their physical, thermal, and mechanical properties were also measured. The prepared materials exhibit low dissipation factors and stable dielectric constants at high frequencies, making them promising dielectric materials for use in high power circuits that operate at high speed.
引用
收藏
页数:10
相关论文
共 17 条
  • [1] TECHNOLOGY AND PROPERTIES OF SELF-GLAZING CERAMIC TILES
    MERKIN, AP
    ZEIFMAN, MI
    SHENKAO, MA
    GLASS AND CERAMICS, 1983, 40 (9-10) : 513 - 516
  • [2] TECHNOLOGY AND PROPERTIES OF SELF-GLAZING CERAMIC TILES.
    Merkin, A.P.
    Zeifman, M.I.
    Shenkao, M.A.
    Glass and Ceramics (English translation of Steklo i Keramika), 1983, 40 (9-10): : 513 - 516
  • [3] Experimental study on the self-glazing phenomenon of porcelain bodies
    Goleanu, Aurica
    InterCeram: International Ceramic Review, 2002, 51 (02) : 110 - 114
  • [4] 3D Printing of Self-Glazing Ceramic Materials: An Investigation Inspired by Ancient Egyptian Technology
    Huson, David
    NIP29: 29TH INTERNATIONAL CONFERENCE ON DIGITAL PRINTING TECHNOLOGIES / DIGITAL FABRICATION 2013, 2013, : 14 - 17
  • [5] Self-glazing ceramic tiles based on acidic igneous glasses
    Merkin, A.P.
    Nanazashvili, V.I.
    Glass and Ceramics (English translation of Steklo i Keramika), 1988, 44 (11-12): : 504 - 506
  • [6] 3D Printing of Self-glazing Ceramics: An Investigation into Egyptian Faience
    Hoskins, Stephen
    Huson, David
    NIP28: 28TH INTERNATIONAL CONFERENCE ON DIGITAL PRINTING TECHNOLOGIES / DIGITAL FABRICATION 2012, 2012, : 341 - 343
  • [7] Use of Siberian mineral raw materials in the manufacture of self-glazing ceramic tile
    V. M. Pogrebenkov
    E. D. Mel’nik
    V. I. Vereshchagin
    Glass and Ceramics, 1997, 54 : 373 - 375
  • [8] Use of Siberian mineral raw materials in the manufacture of self-glazing ceramic tile
    Pogrebenkov, VM
    Mel'nik, ED
    Vereshchagin, VI
    GLASS AND CERAMICS, 1997, 54 (11-12) : 373 - 375
  • [9] Development of Self-Glazing Ceramic Facing Material Based on Low-Plasticity Clay
    Shakhova, V. N.
    Berezovskaya, A. V.
    Pikalov, E. S.
    Selivanov, O. G.
    Sysoev, E. P.
    GLASS AND CERAMICS, 2019, 76 (1-2) : 11 - 15
  • [10] Development of Self-Glazing Ceramic Facing Material Based on Low-Plasticity Clay
    V. N. Shakhova
    A. V. Berezovskaya
    E. S. Pikalov
    O. G. Selivanov
    É. P. Sysoev
    Glass and Ceramics, 2019, 76 : 11 - 15
12