Thermomechanical properties of zirconium dioxide concretes based on mechanochemical phosphate-containing binders

被引:1
|
作者
Nemets, II [1 ]
Bel'maz, NS
Semykina, LN
Bakunov, OV
Borovkova, LB
Pakhomov, EP
机构
[1] Belgorod State Technol Acad Struct Mat, Belgorod, Russia
[2] Russian Acad Sci, Res Ctr TIV OIVT, Moscow, Russia
来源
REFRACTORIES AND INDUSTRIAL CERAMICS | 1997年 / 38卷 / 5-6期
关键词
Zirconium; Monoclinic Phase; Thermomechanical Property; Zirconium Phosphate; Monoclinic Modification;
D O I
10.1007/BF02767841
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
Thermomechanical properties of a highly refractory concrete based on ZrO2 stabilized with 9-10 wt.% Y2O3 and phosphate-containing binder that is obtained by grinding ZrO2 in an aqueous solution of H3PO4 are; studied. The concrete obtained is distinguished by a low (about 1%) content of P2O5, high strength, and high resistance to heat. Thus it can be used as a reliable lining in high-temperature (> 2300 K) heating units.
引用
收藏
页码:171 / 174
页数:4
相关论文
共 14 条
  • [1] Thermomechanical properties of zirconium dioxide concretes based on mechanochemical phosphate-containing binders
    I. I. Nemets
    N. S. Bel'maz
    L. N. Semykina
    O. V. Bakunov
    L. B. Borovkova
    E. P. Pakhomov
    Refractories and Industrial Ceramics, 1997, 38 : 171 - 174
  • [2] Composite photocalysts based on the nanostructural titanium dioxide and zirconium phosphate
    E. N. Krut’ko
    T. N. Galkova
    A. I. Kulak
    Russian Journal of Physical Chemistry A, Focus on Chemistry, 2008, 82 : 2219 - 2222
  • [3] Structure and Catalytic Properties of a Cu2+-Containing Hydrogel of Zirconium Dioxide
    E. G. Kovaleva
    L. S. Molochnikov
    V. G. Kharchuk
    O. V. Kuznetsova
    A. B. Shishmakov
    M. Yu. Yanchenko
    L. Yu. Buldakova
    I. N. Zhdanov
    Yu. V. Mikushina
    L. A. Petrov
    Kinetics and Catalysis, 2004, 45 : 752 - 758
  • [4] Structure and catalytic properties of a Cu2+-containing hydrogel of zirconium dioxide
    Kovaleva, EG
    Molochnikov, LS
    Kharchuk, VG
    Kuznetsova, OV
    Shishmakov, AB
    Yanchenko, MY
    Buldakova, LY
    Zhdanov, IN
    Mikushina, YV
    Petrov, LA
    KINETICS AND CATALYSIS, 2004, 45 (05) : 752 - 758
  • [5] Fire properties of silylated -zirconium phosphate composites based on polystyrene
    Cai, Guipeng
    Lu, Hongdian
    Xu, Shaorong
    Wang, Zhengzhou
    Wilkie, Charles A.
    POLYMERS FOR ADVANCED TECHNOLOGIES, 2013, 24 (07) : 646 - 652
  • [6] Zirconium phosphate (ZrP)-based functional materials: Synthesis, properties and applications
    Xiao, Huaping
    Liu, Shuhai
    MATERIALS & DESIGN, 2018, 155 : 19 - 35
  • [7] Catalytic properties of composite materials based on mesoporous silica and zirconium hydrogen phosphate
    I. A. Stenina
    A. B. Il’in
    S. D. Kirik
    N. A. Zhilyaeva
    G. Yu. Yurkov
    A. B. Yaroslavtsev
    Inorganic Materials, 2014, 50 : 586 - 591
  • [8] Composites based on zirconium dioxide and zirconium hydrophosphate containing graphene-like additions for removal of U(VI) compounds from water
    Perlova, O. V.
    Dzyazko, Yu. S.
    Palchik, A. V.
    Ivanova, I. S.
    Perlova, N. O.
    Danilov, M. O.
    Rusetskii, I. A.
    Kolbasov, G. Ya.
    Dzyazko, A. G.
    APPLIED NANOSCIENCE, 2020, 10 (12) : 4591 - 4602
  • [9] Composites based on zirconium dioxide and zirconium hydrophosphate containing graphene-like additions for removal of U(VI) compounds from water
    O. V. Perlova
    Yu. S. Dzyazko
    A. V. Palchik
    I. S. Ivanova
    N. O. Perlova
    M. O. Danilov
    I. A. Rusetskii
    G. Ya. Kolbasov
    A. G. Dzyazko
    Applied Nanoscience, 2020, 10 : 4591 - 4602
  • [10] Fabrication and properties of hybrid membranes based on salts of heteropolyacid, zirconium phosphate and polyvinyl alcohol
    Helen, M.
    Viswanathan, B.
    Murthy, S. Srinivasa
    JOURNAL OF POWER SOURCES, 2006, 163 (01) : 433 - 439
12