Air oxidation of chromium-based composites

被引:0
|
作者
I. V. Oryshich
N. E. Poryadchenko
I. G. Slys’
N. P. Brodnikovskii
A. V. Golovash
机构
[1] National Academy of Sciences of Ukraine,Institute for Problems of Materials Science
来源
Powder Metallurgy and Metal Ceramics | 2007年 / 46卷
关键词
oxidation; chromium; powder composites; kinetics; scale; microstructure;
D O I
暂无
中图分类号
学科分类号
摘要
The oxidation kinetics of chromium and its composites Cr-2% Mg, Cr-2% (La + B) obtained by powder metallurgy and of heat-resistant VKh-2K alloy obtained at temperatures of 900 to 1400 °C and held for 1 to 50 h is studied. It is shown that the oxidation of pure chromium up to 1100 °C and of composites and VKh-2K alloy up to 1200 °C is described by a parabolic law (n ≈ 2). The oxidation resistance of composites is high and commensurable with that of VKh-2K alloy. Therefore, they are suitable for producing parts for operation at high temperatures and in corrosive environments.
引用
收藏
页码:189 / 193
页数:4
相关论文
共 50 条
  • [31] Studies of a chromium-based ethylene oligomerization system.
    Schofer, SJ
    Bercaw, JE
    [J]. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2003, 225 : U151 - U151
  • [32] On the increase of strength and fracture toughness of chromium-based materials
    Kolomietz, AT
    Bega, ND
    Turtsevich, EV
    Firstov, SA
    [J]. METALLOFIZIKA I NOVEISHIE TEKHNOLOGII, 1997, 19 (09): : 32 - 37
  • [33] Increase of strength and fracture toughness of chromium-based materials
    Kolomiets, A.T.
    Bega, N.D.
    Turtsevich, Ye.V.
    Firstov, S.A.
    [J]. Metal Physics and Advanced Technologies, 1999, 17 (09): : 1035 - 1042
  • [34] Superconductivity under pressure in a chromium-based kagome metal
    Yi Liu
    Zi-Yi Liu
    Jin-Ke Bao
    Peng-Tao Yang
    Liang-Wen Ji
    Si-Qi Wu
    Qin-Xin Shen
    Jun Luo
    Jie Yang
    Ji-Yong Liu
    Chen-Chao Xu
    Wu-Zhang Yang
    Wan-Li Chai
    Jia-Yi Lu
    Chang-Chao Liu
    Bo-Sen Wang
    Hao Jiang
    Qian Tao
    Zhi Ren
    Xiao-Feng Xu
    Chao Cao
    Zhu-An Xu
    Rui Zhou
    Jin-Guang Cheng
    Guang-Han Cao
    [J]. Nature, 2024, 632 (8027) : 1032 - 1037
  • [35] A Chromium-Based Memento-Aware Web Browser
    Mabe, Abby
    Nelson, Michael L.
    Weigle, Michele C.
    [J]. LINKING THEORY AND PRACTICE OF DIGITAL LIBRARIES (TPDL 2022), 2022, 13541 : 147 - 160
  • [36] Computational Search for Novel Hard Chromium-Based Materials
    Kvashnin, Alexander G.
    Oganov, Artem R.
    Samtsevich, Artem I.
    Allahyari, Zahed
    [J]. JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 2017, 8 (04): : 755 - 764
  • [37] PREPARATION AND CRYSTALLIZATION OF CHROMIUM-BASED AMORPHOUS-ALLOYS
    DINI, K
    DUNLAP, RA
    HARGRAVES, P
    [J]. JOURNAL OF MATERIALS SCIENCE, 1986, 21 (03) : 1037 - 1040
  • [38] Chromium and chromium-based alloys: Problems and possibilities for high-temperature service
    Y. F. Gu
    H. Harada
    Y. Ro
    [J]. JOM, 2004, 56 : 28 - 33
  • [39] Role of carbon in the chromium deposit electroplated from a trivalent chromium-based bath
    Huang, Ching An
    Liu, Yu Wei
    Yu, Chi
    Yang, Chun-Chen
    [J]. SURFACE & COATINGS TECHNOLOGY, 2011, 205 (11): : 3461 - 3466
  • [40] MECHANISM OF THE FORMATION OF CHROMIUM-BASED DIFFUSIONAL COATINGS ON STEEL
    MIKHAILIN, VN
    CHERTYOV, BN
    RATGAUZ, LY
    NOVIKOV, AY
    [J]. RUSSIAN METALLURGY, 1992, (02): : 178 - 184
12345