Surface Hardening of Titanium Under Non-Vacuum Electron-Beam Cladding of an Aluminum-Containing Powder Mixture

被引:0
|
作者
I. A. Bataev
D. V. Lazurenko
M. G. Golkovskii
A. A. Bataev
O. E. Matts
机构
[1] Novosibirsk State Technical University,
[2] Institute of Nuclear Physics of the Siberian Branch of the Russian Academy of Sciences,undefined
来源
Metal Science and Heat Treatment | 2019年 / 60卷
关键词
titanium; electron beam; cladding; titanium aluminide; structure; properties;
D O I
暂无
中图分类号
学科分类号
摘要
Special features of the structure of surface layers formed on billets of commercial-purity titanium VT1-0 by cladding a powder aluminum-titanium mixture with an electron beam removed into air atmosphere are studied. X-ray phase analysis and transmission electron microscopy are used to show that the material remelted by the electron beam is Ti3Al titanium aluminide. The hardness of the deposited layer is 540 – 610 HV. The behavior of the material is studied under the conditions of sliding friction and friction against fixed abrasive particles. The results reflect decrease in the friction factor and increase in the wear resistance of the clad material as compared to commercially pure titanium.
引用
收藏
页码:619 / 624
页数:5
相关论文
共 50 条
  • [1] Surface Hardening of Titanium Under Non-Vacuum Electron-Beam Cladding of an Aluminum-Containing Powder Mixture
    Bataev, I. A.
    Lazurenko, D. V.
    Golkovskii, M. G.
    Bataev, A. A.
    Matts, O. E.
    METAL SCIENCE AND HEAT TREATMENT, 2019, 60 (9-10) : 619 - 624
  • [2] Surface Hardening of Commercially Pure Titanium by Non-vacuum Electron Beam Cladding of Powder Mixtures
    Lenivtseva, Olga
    Tokarev, Aleksander
    Chakin, Ivan
    Burov, Sergey
    Khudorozhkova, Yulia
    OBRABOTKA METALLOV-METAL WORKING AND MATERIAL SCIENCE, 2018, 20 (02): : 116 - 129
  • [3] The study of the modes of Ta-Zr powder mixture non-vacuum electron-beam cladding on the surface of the cp-titanium plates
    Samoylenko, V. V.
    Lozhkina, E. A.
    Polyakov, I. A.
    Lenivtseva, O. G.
    Ivanchik, I. S.
    Matts, O. E.
    INTERNATIONAL CONFERENCE AND YOUTH SCIENTIFIC SCHOOL ON MATERIALS AND TECHNOLOGIES OF NEW GENERATIONS IN MODERN MATERIALS SCIENCE, 2016, 156
  • [4] Non-vacuum electron-beam carburizing and surface hardening of mild steel
    Bataev, I. A.
    Golkovskii, M. G.
    Losinskaya, A. A.
    Bataev, A. A.
    Popelyukh, A. I.
    Hassel, T.
    Golovin, D. D.
    APPLIED SURFACE SCIENCE, 2014, 322 : 6 - 14
  • [5] Surface hardening of steels with carbon by non-vacuum electron-beam processing
    Bataev, I. A.
    Golkovskii, M. G.
    Bataev, A. A.
    Losinskaya, A. A.
    Dostovalov, R. A.
    Popelyukh, A. I.
    Drobyaz, E. A.
    SURFACE & COATINGS TECHNOLOGY, 2014, 242 : 164 - 169
  • [6] Hardening of stainless steel surface layers by non-vacuum electron beam cladding
    Ovdina, D. S.
    Novgorodtseva, O. N.
    Andryushkina, V. E.
    RUSSIAN PHYSICS JOURNAL, 2024, 67 (10) : 1548 - 1554
  • [7] Effect of Electron Beam Power Density on the Structure of Titanium Under Non-Vacuum Electron-Beam Treatment
    I. V. Ivanov
    A. Thoemmes
    V. Y. Skiba
    A. A. Ruktuev
    I. A. Bataev
    Metal Science and Heat Treatment, 2019, 60 : 625 - 632
  • [8] Effect of Electron Beam Power Density on the Structure of Titanium Under Non-Vacuum Electron-Beam Treatment
    Ivanov, I. V.
    Thoemmes, A.
    Skiba, V. Y.
    Ruktuev, A. A.
    Bataev, I. A.
    METAL SCIENCE AND HEAT TREATMENT, 2019, 60 (9-10) : 625 - 632
  • [9] Production of wear-resistance coatings on titanium alloys by the method of non-vacuum electron-beam cladding
    Lenivtseva, O. G.
    Bataev, I. A.
    Golkovsky, M. G.
    Samoylenko, V. V.
    Dostovalov, R. A.
    OBRABOTKA METALLOV-METAL WORKING AND MATERIAL SCIENCE, 2013, (03): : 103 - 109
  • [10] Non-vacuum electron beam cladding of titanium, tantalum and niobium powders on titanium substrate
    Zhuravina, T., V
    Bataev, I. A.
    Ruktuev, A. A.
    Alkhimov, A. P.
    Lenivtseva, O. G.
    Butylenkova, O. A.
    OBRABOTKA METALLOV-METAL WORKING AND MATERIAL SCIENCE, 2012, (01): : 90 - 95