Influence of oxalic acid on the corrosion of VT1-0 titanium in a water-ethylene-glycol heat carrier

被引:0
|
作者
N. A. Bazeleva
机构
[1] “Naukovo-Doslidnyi Instytut ’shtorm’” State Enterprise,
来源
Materials Science | 2006年 / 42卷
关键词
Titanium; Titanium Alloy; Oxalic Acid; Corrosion Test; Heat Carrier;
D O I
暂无
中图分类号
学科分类号
摘要
We present the regression-analytic and regression models aimed at the evaluation of the corrosion losses of VT1-0 titanium as a function of time and the coefficients of acceleration of corrosion depending on the concentration of oxalic acid and temperature. It is shown that, in a 66% solution of ethylene glycol, oxalic acid intensifies the process of corrosion of VT1-0 titanium for concentrations higher than 0.1% due to the formation of complexes of the products of oxidation of titanium with oxalate anions, especially at elevated temperatures.
引用
收藏
页码:691 / 697
页数:6
相关论文
共 43 条
  • [31] INFLUENCE OF A TITANIUM NITRIDE COATING ON THE LOW-CYCLE FATIGUE OF VT1-0 AND AT3 TITANIUM ALLOYS IN A CORROSIVE MEDIUM.
    Katsov, K.B.
    Trufanov, A.A.
    Zhitomirskii, V.N.
    Soviet materials science, 1985, 21 (03): : 290 - 291
  • [32] Investigation of Changes in the Structure of Submicrocrystalline Titanium of VT1-0 Brand under Heat Treatment and Laser Processing with Nanosecond Pulses
    S. S. Manokhin
    A. Yu. Tokmacheva-Kolobova
    Yu. Yu. Karlagina
    V. I. Betekhtin
    A. G. Kadomtsev
    M. V. Narykova
    Yu. R. Kolobov
    Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 2021, 15 : 59 - 64
  • [33] EFFECTS OF ORGANIC AND INORGANIC OXIDANTS ON CORROSION OF 12KH18N10T STEEL AND VT1-0 TITANIUM
    GLEIZER, MM
    TSEITLIN, KL
    SOROKIN, YI
    ISAENKO, GI
    BABITSKAYA, SM
    PROTECTION OF METALS, 1977, 13 (06): : 574 - 578
  • [34] Corrosion of M1 copper in an aqueous ethylene-glycol heat carrier under conditions of heat transfer
    N. A. Bazeleva
    I. A. Gorbunov
    Materials Science, 2005, 41 : 609 - 617
  • [35] Corrosion of M1 copper in an aqueous ethylene-glycol heat carrier under conditions of heat transfer
    Bazeleva, NA
    Gorbunov, IA
    MATERIALS SCIENCE, 2005, 41 (05) : 609 - 617
  • [36] The influence of water concentration on the corrosion of low alloy steels in the system methanol - ethylene glycol - malonic acid
    Sutiman, D.
    Hungarian Journal of Industrial Chemistry, 2002, 30 (03): : 187 - 190
  • [37] The influence of water concentration on the corrosion of low alloy steels in the system methanol - ethylene glycol - acetic acid
    Sutiman, D.
    Vizitiu, M.
    Hungarian Journal of Industrial Chemistry, 2002, 30 (01): : 33 - 36
  • [38] The influence of water concentration on the corrosion of low alloy steels in the system methanol - Ethylene glycol - Formic acid
    Sutiman, D.
    CǍilean, A.
    Hungarian Journal of Industrial Chemistry, 2001, 29 (01): : 17 - 20
  • [39] Effect of oxalic acid on the corrosion of 6063 aluminum alloy in ethylene glycol-water solution in presence of ammonium alcohol polyvinyl phosphate
    Chen, Shaogao
    Fan, Jinlong
    Lei, Tao
    Zou, Zhen
    Yi, Jiabao
    Tan, Shuang
    Zheng, Xingwen
    INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE, 2024, 19 (04):
  • [40] Research of the boundary structure for the bimetal compound steel 08Kh18N10T + vanadium VnPl-1 + titanium VT1-0 at the influence of explosion energy
    Kurilkin V.V.
    Saykov I.V.
    Malakhov A.Y.
    Shchukin A.S.
    Berdychenko A.A.
    Welding International, 2020, 34 (1-3) : 1 - 4
12345