High-temperature composite materials and coatings on the basis of glass and ceramics for aerospace technics

被引:8
|
作者
Solntsev, St. S. [1 ]
机构
[1] All Russian Sci Res Inst Aviat Mat Fed State Unit, State Res Ctr Russian Federat RIAM, Moscow 105005, Russia
来源
RUSSIAN JOURNAL OF GENERAL CHEMISTRY | 2011年 / 81卷 / 05期
关键词
Heat Shield; Enamel Coating; Ceramic Composite Material; Continuous Carbon Fiber; Heat Shield Material;
D O I
10.1134/S1070363211050306
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
High-temperature composite materials and coatings developed in the RIAM, specifically construction composite materials with glass, glass-ceramic, and ceramic matrices, for use at 700-1500A degrees C, ceramic composites on the basis of poly-carbosilanes, erosion resistant coatings with the effect of thermal control for heat shield systems of perspective aerospace technics, are reviewed. These coatings combine a complex of properties: high radiating capacity, phase stability, thermal shrinkage resistance, resistance against acoustic, vibration, atmospheric factors, etc. Technological coatings to protect steels and Ti and Ni alloys during heat treatment and isothermal and hot die forging are developed. New type enamels, pasts, thick-film electric heaters, etc., are described.
引用
收藏
页码:992 / 1000
页数:9
相关论文
共 50 条
  • [1] High-temperature composite materials and coatings on the basis of glass and ceramics for aerospace technics
    St. S. Solntsev
    Russian Journal of General Chemistry, 2011, 81 : 992 - 1000
  • [2] Promising High-Temperature Composite Materials and Coatings for Aerospace Technology
    St Solntsev, S.
    Grashchenkov, D. V.
    Evdokimov, S. A.
    GLASS AND CERAMICS, 2014, 71 (1-2) : 23 - 27
  • [3] Promising High-Temperature Composite Materials and Coatings for Aerospace Technology
    S. St. Solntsev
    D. V. Grashchenkov
    S. A. Evdokimov
    Glass and Ceramics, 2014, 71 : 23 - 27
  • [4] Sol-Gel synthesis of high-temperature aluminosilicate glass-ceramics and composite materials on its basis
    Chaynikova, A. S.
    Shchegoleva, N. E.
    Modin, S. Y.
    Akopian, A. A.
    Grashchenkov, D. V.
    Vaganova, M. L.
    FOURTH INTERDISCIPLINARY SCIENTIFIC FORUM WITH INTERNATIONAL PARTICIPATION NEW MATERIALS AND PROMISING TECHNOLOGIES, 2019, 525
  • [5] Glass and ceramics based high-temperature composite materials for use in aviation technology
    E. N. Kablov
    D. V. Grashchenkov
    N. V. Isaeva
    S. S. Solntsev
    V. G. Sevast’yanov
    Glass and Ceramics, 2012, 69 : 109 - 112
  • [6] Glass and ceramics based high-temperature composite materials for use in aviation technology
    Kablov, E. N.
    Grashchenkov, D. V.
    Isaeva, N. V.
    Solntsev, S. S.
    Sevast'yanov, V. G.
    GLASS AND CERAMICS, 2012, 69 (3-4) : 109 - 112
  • [7] HIGH-TEMPERATURE OXIDATION PROTECTION COATINGS FOR MONOLITHIC OR COMPOSITE CERAMICS
    DESMAISON, J
    WERKSTOFFE UND KORROSION-MATERIALS AND CORROSION, 1990, 41 (12): : 749 - 750
  • [8] High-temperature composite materials
    Pilipovskii, YL
    Vishnevskii, LG
    Grudina, TV
    Pereselentseva, LN
    POWDER METALLURGY AND METAL CERAMICS, 1995, 34 (7-8) : 457 - 464
  • [9] HIGH-TEMPERATURE MATERIALS ADVANCE AEROSPACE AND OTHER TECHNOLOGIES
    GRAY, AG
    METAL PROGRESS, 1981, 119 (04): : 25 - 25
  • [10] HIGH-TEMPERATURE CONDUCTOR MATERIALS DEVELOPMENT FOR AEROSPACE APPLICATIONS
    GIMPL, ML
    FUSCHILL.N
    ZWILSKY, KM
    IEEE TRANSACTIONS ON AEROSPACE, 1965, AS 3 (02): : 93 - &
12345