Enhancement of the Heat Resistance of Coatings for the Blades of Gas-Turbine Engines

被引:0
|
作者
S. G. Rudenkyi
E. V. Timofeeva
A. V. Kunchenko
A. A. Korneev
M. A. Bortnitskaya
V. V. Kunchenko
Yu. V. Kunchenko
T. P. Ryzhova
机构
[1] National Scientific Center,“Kharkiv Physicotechnical Institute”
来源
Materials Science | 2020年 / 55卷
关键词
vacuum-activated diffusion saturation; complex refractory coatings;
D O I
暂无
中图分类号
学科分类号
摘要
To create blades of gas-turbine engines of new generation made of materials based on alloys of the Nb–Si system, we study the surface layer formed on niobium by its silicides with additionally introduced titanium elements. It is shown that the heat resistance of these specimens does not depend on the method of formation of the surface layer and depends only on its thickness. The addition of titanium increases the heat resistance of the specimens at 1350°C depending on its content. We also performed the thermodynamic analysis of the possibility of simultaneous saturation of the surface of niobium with titanium and boron under the action of vapors of the NaCl activator.
引用
收藏
页码:569 / 576
页数:7
相关论文
共 50 条
  • [1] Enhancement of the Heat Resistance of Coatings for the Blades of Gas-Turbine Engines
    Rudenkyi, S. G.
    Timofeeva, E., V
    Kunchenko, A., V
    Korneev, A. A.
    Bortnitskaya, M. A.
    Kunchenko, V. V.
    Kunchenko, Yu, V
    Ryzhova, T. P.
    [J]. MATERIALS SCIENCE, 2020, 55 (04) : 569 - 576
  • [2] Automated Manufacture of Blades for Gas-Turbine Engines
    Poletaev V.A.
    Tsvetkov E.V.
    Uryadysheva A.M.
    [J]. Russian Engineering Research, 2019, 39 (07): : 598 - 601
  • [3] Regularities pertinent to the cyclic heat resistance of the materials of gas-turbine blades
    V. I. Nikitin
    [J]. Thermal Engineering, 2008, 55 (2) : 122 - 128
  • [4] Robot Stamping System for Compressor Blades in Gas-Turbine Engines
    Kozhina T.D.
    Volkov S.A.
    [J]. Russian Engineering Research, 2019, 39 (07): : 587 - 590
  • [5] HIGH-TEMPERATURE EROSION RESISTANCE OF COATINGS FOR USE IN GAS-TURBINE ENGINES
    TABAKOFF, W
    [J]. SURFACE & COATINGS TECHNOLOGY, 1992, 52 (01): : 65 - 79
  • [6] Physical phenomena in the polishing of compressor blades for gas-turbine engines
    V. F. Makarov
    E. N. Bychina
    [J]. Russian Engineering Research, 2012, 32 (2) : 203 - 206
  • [7] USE OF PROTECTIVE COATINGS IN AERO GAS-TURBINE ENGINES
    MEETHAM, GW
    [J]. MATERIALS SCIENCE AND TECHNOLOGY, 1986, 2 (03) : 290 - 294
  • [8] GAS-TURBINE ENGINES
    METZGER, DE
    MAYLE, RE
    [J]. MECHANICAL ENGINEERING, 1983, 105 (06) : 44 - 52
  • [9] CERAMIC COATINGS MEASURE COMPLEX STRESSES IN GAS-TURBINE BLADES
    TYRER, R
    [J]. EXPERIMENTAL MECHANICS, 1972, 12 (08) : N19 - &
  • [10] METHOD OF DETERMINING THE STRESS INTENSITY FACTOR IN THE BLADES OF GAS-TURBINE ENGINES
    PROKOPENKO, AV
    [J]. STRENGTH OF MATERIALS, 1984, 16 (04) : 469 - 473
12345