Advances in Materials Science and Engineering (Jan 2017)

The Influence of Anode Inner Contour on Atmospheric DC Plasma Spraying Process

  • Kui Wen,
  • Min Liu,
  • Kesong Zhou,
  • Xuezhang Liu,
  • Renzhong Huang,
  • Jie Mao,
  • Kun Yang,
  • Xiaofeng Zhang,
  • Chunming Deng,
  • Changguang Deng

DOI
https://doi.org/10.1155/2017/2084363
Journal volume & issue
Vol. 2017

Abstract

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In thermal plasma spraying process, anode nozzle is one of the most important components of plasma torch. Its inner contour controls the characteristics of plasma arc/jet, determining the motion and heating behaviors of the in-flight particles and hence influencing the coating quality. In this study, the effects of anode inner contour, standard cylindrical nozzle, and cone-shaped Laval nozzle with conical shape diverging exit (CSL nozzle) on the arc voltage, net power, thermal efficiency, plasma jet characteristics, in-flight particle behaviors, and coating properties have been systematically investigated under atmospheric plasma spraying conditions. The results show that the cylindrical nozzle has a higher arc voltage, net power, and thermal efficiency, as well as the higher plasma temperature and velocity at the torch exit, while the CSL nozzle has a higher measured temperature of plasma jet. The variation trends of the plasma jet characteristics for the two nozzles are comparable under various spraying parameters. The in-flight particle with smaller velocity of CSL nozzle has a higher measured temperature and melting fraction. As a result, the coating density and adhesive strength of CSL nozzle are lower than those of cylindrical nozzle, but the deposition efficiency is greatly improved.