Effect of plasma spraying regimes on structure and properties of Ni3Al coatings
E.E. Kornienko1, D.O. Mul’1, O.A. Rubtsova1, S.P. Vaschenko2, V.I. Kuzmin2, I.P. Gulyaev2, and D.V. Sergachev2
1 Novosibirsk State Technical University, Novosibirsk, Russia 2 Khristianovich Institute of Theoretical and Applied Mechanics SB RAS, Novosibirsk, Russia E-mail: kornienko_ee@mail.ru
Keywords: plasmatorch, plasma deposition, Ni3Al, wear resistance
Pages: 919–927
Abstract
The structure and tribological properties of coatings made of PN85YU15 powder were studied. The coatings were deposited on the mild steel blanks by the technology of air-plasma spraying using a unit of annular input and gas-dynamic powder focusing. Efficiency of heating and acceleration of powder particles was studied preliminarily. Measurement results on temperature and velocity distributions of particles at a certain spraying distance by the method of spectral pyrometry and time-of-flight method are presented. The effect of plasmatorch arc current and amount of propane-butane in the plasma flow on the structure and properties of coatings is analyzed in this paper. It is determined that the phase composition of coatings and initial powder is the same: the main phase is Ni3Al compound; moreover, the structure contains Ni5Al3 phase. It
is shown that an increase in the amount of propane-butane increases coatings
porosity. The densest coatings (5.77%) were obtained at the plasmatorch arc
current of 200 A
with the reduced amount of propane-butane. The coatings obtained at the minimal
arc current of 100 A
with an increased amount of propane-butane are characterized by maximal
porosity (20.38%). The results of tribological testing of the coatings under
the conditions of sliding friction with a lubricant by the disc-plane
scheme are presented. From the standpoint of obtaining the densest coatings
with high performance, the optimal regimes of plasma spraying of PN85YU15
powder are the current from 140
A to 200 and using the air and propane-butane mixture
only as the shielding gas (anode curtain).
DOI: 10.1134/S0869864316060147
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