Improvement of plasma spraying efficiency and coating quality

被引:9
|
作者
Chen, HC
Pfender, E
Heberlein, J
机构
[1] ERC for Plasma-Aided Manufacturing, Department of Mechanical Engineering, University of Minnesota, Minneapolis
来源
PLASMA CHEMISTRY AND PLASMA PROCESSING | 1997年 / 17卷 / 01期
基金
美国国家科学基金会;
关键词
plasma spraying; torch modification; particle motion analysis; deposition efficiency; coating quality;
D O I
10.1007/BF02766824
中图分类号
TQ [化学工业];
学科分类号
0817 ;
摘要
A commercial torch has been modified to introduce an additional anti-vortex and shroud gas flow to counter the detrimental effects brought about by the vortex plasma gas flow which is used to stabilize the cathode are attachment and to increase the anode life. Deposition efficiency and coating quality are used as criteria to judge the modified versus the nonmodified torch. High-speed videography and computerized image analysis systems are used to determine the particle trajectories, velocities, and the plasma jet geometry. The results show that the additional anti-vortex and shroud gas flow to the torch can keep the particles closer to the torch axis and reduce the amount of entrainment of cold air into the plasma jet. The consequence is that deposition efficiency and coating quality are substantially improved.
引用
收藏
页码:93 / 105
页数:13
相关论文
共 50 条
  • [1] Improvement of plasma spraying efficiency and coating quality
    H. C. Chen
    E. Pfender
    J. Heberlein
    Plasma Chemistry and Plasma Processing, 1997, 17 : 93 - 105
  • [2] Improvement of plasma spraying efficiency and coating quality
    Plasma Chem Plasma Process, 1 (93):
  • [3] IMPROVEMENT OF THE EFFICIENCY OF AN AIR PLASMA SPRAYING TECHNOLOGY
    Churkin, I. S.
    Ivanov, D.
    Frolov, V.
    Uhrlandt, D.
    XIXTH SYMPOSIUM ON PHYSICS OF SWITCHING ARC, 2011, : 149 - 152
  • [4] Efficiency of surface cleaning by a glow discharge for plasma spraying coating
    Kadyrmetov, A. M.
    Kashapov, N. F.
    Sharifullin, S. N.
    Saifutdinov, A. I.
    Fadeev, S. A.
    INTERNATIONAL SCIENTIFIC-TECHNICAL CONFERENCE ON INNOVATIVE ENGINEERING TECHNOLOGIES, EQUIPMENT AND MATERIALS 2015 (ISTC-IETEM-2015), 2016, 134
  • [5] Improvement of Coating Properties in Three-Cathode Atmospheric Plasma Spraying
    K. Bobzin
    N. Kopp
    T. Warda
    I. Petković
    S. Zimmermann
    K. Hartz-Behrend
    K. Landes
    G. Forster
    S. Kirner
    J.-L. Marqués
    J. Schein
    J. Prehm
    K. Möhwald
    Fr.-W. Bach
    Journal of Thermal Spray Technology, 2013, 22 : 502 - 508
  • [6] Improvement of Coating Properties in Three-Cathode Atmospheric Plasma Spraying
    Bobzin, K.
    Kopp, N.
    Warda, T.
    Petkovic, I.
    Zimmermann, S.
    Hartz-Behrend, K.
    Landes, K.
    Forster, G.
    Kirner, S.
    Marques, J-L.
    Schein, J.
    Prehm, J.
    Moehwald, K.
    Bach, Fr-W.
    JOURNAL OF THERMAL SPRAY TECHNOLOGY, 2013, 22 (04) : 502 - 508
  • [7] Improvement of surface properties of SLM parts by atmospheric plasma spraying coating
    Zhang, Baicheng
    Zhu, Lin
    Liao, Hanlin
    Coddet, Christian
    APPLIED SURFACE SCIENCE, 2012, 263 : 777 - 782
  • [8] EQUIPMENT PERFORMANCE AND COATING QUALITY IN MODERN VACUUM PLASMA SPRAYING (VPS)
    GRUNER, H
    LANGAGNE, JP
    NICOLL, AR
    MATERIALS SCIENCE AND ENGINEERING, 1987, 88 : 349 - 349
  • [9] A Study of the Influence of the Surrounding Gas on the Plasma Jet and Coating Quality During Plasma Spraying
    Liu, T.
    Ansar, A.
    Arnold, J.
    PLASMA CHEMISTRY AND PLASMA PROCESSING, 2017, 37 (04) : 1009 - 1032
  • [10] A Study of the Influence of the Surrounding Gas on the Plasma Jet and Coating Quality During Plasma Spraying
    T. Liu
    A. Ansar
    J. Arnold
    Plasma Chemistry and Plasma Processing, 2017, 37 : 1009 - 1032
12345