Wear resistance of coatings using shs-Technology under electric-Spark alloying conditions

被引:0
|
作者
Belyakov A.V. [1 ]
Kalugin R.N. [1 ]
Panteleenko F.I. [2 ]
Khina B.B. [3 ]
Sarantsev V.V. [2 ]
机构
[1] JSC all-Russia Heat Engineering Institute (JSC vTI), Moscow
来源
Power Technology and Engineering | 2014年 / 48卷 / 2期
关键词
Composite coating; Electric-Spark alloying; Microhardness; Microstructure; Self-Propagating high-Temperature synthesis; Steel substrates; Titanium carbide; X-ray microanalysis;
D O I
10.1007/s10749-014-0499-5
中图分类号
学科分类号
摘要
A method is proposed for applying titanium carbide composite coatings by means of combined technology of self-Propagating high-Temperature synthesis (SHS) and electric-Spark alloying (ESA). It is established that use of a Ti + C + Ni powder mixture as SHS reagents, applied to a component surface before ESA, makes it possible to obtain hard ultrafine coatings 0.1 - 0.3 mm thick with a titanium carbide particle size from 0.1 to 5.0 μm. ©2014 Springer Science + Business Media New York.
引用
收藏
页码:147 / 152
页数:5
相关论文
共 50 条
  • [1] Influence of gaseous atmosphere on the formation of coatings on iron under the conditions of electric-spark alloying
    Mazanko, V. F.
    Khranovs'ka, K. M.
    Ivashchenko, E. V.
    Vorona, S. P.
    [J]. MATERIALS SCIENCE, 2008, 44 (02) : 294 - 297
  • [2] Influence of gaseous atmosphere on the formation of coatings on iron under the conditions of electric-spark alloying
    V. F. Mazanko
    K. M. Khranovs’ka
    E. V. Ivashchenko
    S. P. Vorona
    [J]. Materials Science, 2008, 44 : 294 - 297
  • [3] EXPERIENCE WITH ELECTRIC-SPARK ALLOYING TO INCREASE THE WEAR-RESISTANCE OF GLASS MOLDS
    PLESKACH, VM
    AVERCHENKO, PA
    [J]. GLASS AND CERAMICS, 1980, 37 (1-2) : 81 - 82
  • [4] Friction Behavior of Electric-Spark Coatings Under the Conditions of Boundary Lubrication
    Holubets, V. M.
    Dovhunyk, V. M.
    Pashechko, M. I.
    Kornii, S. A.
    Shpulyar, Yu. S.
    [J]. MATERIALS SCIENCE, 2020, 56 (01) : 43 - 49
  • [5] Friction Behavior of Electric-Spark Coatings Under the Conditions of Boundary Lubrication
    V. М. Holubets
    V. М. Dovhunyk
    M. І. Pashechko
    S. А. Kornii
    Yu. S. Shpulyar
    [J]. Materials Science, 2020, 56 : 43 - 49
  • [6] On formation of residual stresses under electric-spark alloying
    Ignat'kov, D.A.
    [J]. Elektronnaya Obrabotka Materialov, 2001, (04): : 9 - 14
  • [7] Structure and wear-resistance of coatings at titanium alloy and steels obtained by electric-spark alloying with material AlN-ZrB2
    Teplenko, M.A.
    Podchernyaeva, I.A.
    Panasyuk, A.D.
    Katashinskij, V.P.
    Yuga, A.I.
    [J]. Poroshkovaya Metallurgiya, 2002, (3-4): : 48 - 57
  • [8] Creation of strong adhesive diamond coatings on hard alloy by electric-spark alloying
    E. V. Azarova
    E. A. Levashov
    V. G. Ralchenko
    A. P. Bolshakov
    E. E. Ashkinazi
    [J]. Metallurgist, 2010, 54 : 523 - 529
  • [9] CREATION OF STRONG ADHESIVE DIAMOND COATINGS ON HARD ALLOY BY ELECTRIC-SPARK ALLOYING
    Azarova, E. V.
    Levashov, E. A.
    Ralchenko, V. G.
    Bolshakov, A. P.
    Ashkinazi, E. E.
    [J]. METALLURGIST, 2010, 54 (7-8) : 523 - 529
  • [10] Increasing the wear resistance of surface layers of high-speed steel by electric-spark alloying and laser treatment
    V. P. Botvinko
    M. S. Koval’chenko
    A. V. Paustovskii
    A. I. Yuga
    A. D. Kostenko
    [J]. Powder Metallurgy and Metal Ceramics, 1999, 38 : 362 - 366
12345