Refractory Monocarbides and Diborides of Transition Metals: Promising Components of High-Temperature Composite Materials

被引:2
|
作者
Burkhanov G.S. [1 ]
Dementiev V.A. [1 ]
机构
[1] Baikov Institute of Metallurgy and Materials Science, Russian Academy of Sciences, Moscow
来源
Inorganic Materials: Applied Research | 2018年 / 9卷 / 6期
关键词
borides; carbides; carbon materials; composite materials; engineering materials; physicochemical analysis; refractory compounds; solidification;
D O I
10.1134/S2075113318060059
中图分类号
学科分类号
摘要
Abstract—Development of innovative composite materials capable of operating under extreme conditions requires a comprehensive engineering approach. One of the components of such materials can be represented by monocarbides and diborides of transition metals of groups IV–VI of the periodic table: titanium, zirconium, hafnium, vanadium, niobium, tantalum, as well as their binary systems. Most isomorphic pairs of monocarbides and ddiborides are characterized by unlimited mutual solubility. The HfC–TaC system is of particular interest. The melting point of TaC–4HfC exceeds 4000°C, which is the highest refractoriness among all known synthesized substances. © 2018, Pleiades Publishing, Ltd.
引用
收藏
页码:1012 / 1019
页数:7
相关论文
共 50 条
  • [21] CORROSION OF HIGH-TEMPERATURE MATERIALS IN ALKALI METALS
    KELLY, KJ
    KLAMUT, CJ
    THURBER, WC
    SEMMEL, JW
    ROSENBLUM, L
    NUCLEONICS, 1964, 22 (03): : 37 - &
  • [22] The use of refractory metals as high temperature structural materials
    Briant, CL
    JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY-TRANSACTIONS OF THE ASME, 2000, 122 (03): : 338 - 341
  • [23] EVIDENCE FOR HIGH-TEMPERATURE FORMS OF ZIRCONIUM AND TANTALUM MONOCARBIDES
    SHAFFER, PTB
    JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 1963, 46 (04) : 177 - 179
  • [24] REFRACTORY TRANSITION METAL COMPOUNDS - HIGH-TEMPERATURE CERMETS
    JUENKE, EF
    NUCLEAR SCIENCE AND ENGINEERING, 1966, 24 (04) : 420 - &
  • [25] High-temperature strength of refractory metals, alloys and composite materials based on them. Part 2. Molybdenum and niobium alloys
    V. K. Kharchenko
    V. V. Bukhanovskii
    Strength of Materials, 2012, 44 : 617 - 625
  • [26] High-temperature strength of refractory metals, alloys and composite materials based on them. Part 2. Molybdenum and niobium alloys
    Kharchenko, V. K.
    Bukhanovskii, V. V.
    STRENGTH OF MATERIALS, 2012, 44 (06) : 617 - 625
  • [27] High-temperature direct synthesis calorimetry of refractory materials
    Kleppa, OJ
    Guo, Q
    Meschel, SV
    THERMODYMANICS OF ALLOY FORMATION, 1997, : 43 - 58
  • [28] Perspective high-temperature ceramic composite materials
    Kablov, E. N.
    Grashchenkov, D. V.
    Isaeva, N. V.
    Solntsev, S. St.
    RUSSIAN JOURNAL OF GENERAL CHEMISTRY, 2011, 81 (05) : 986 - 991
  • [29] Perspective high-temperature ceramic composite materials
    E. N. Kablov
    D. V. Grashchenkov
    N. V. Isaeva
    S. St. Solntsev
    Russian Journal of General Chemistry, 2011, 81 : 986 - 991
  • [30] High-temperature rheology of SHS composite materials
    Stolin, AM
    Merzhanov, AG
    Stelmakh, LS
    Gordopolov, YA
    MECHANICS OF COMPOSITE MATERIALS, 1996, 32 (02) : 183 - 185
12345