Materials Research (Mar 2022)

Oxide Layers Growth on AISI 1006 Steel through 'Asymmetric Bipolar Pulsed Plasma' Process

  • Paula Fin,
  • Abel A. C. Recco,
  • Juliano Sadi Scholtz,
  • Luis C. Fontana

DOI
https://doi.org/10.1590/1980-5373-mr-2021-0475
Journal volume & issue
Vol. 25

Abstract

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Abstract The main problem in metal oxidation is the spalling and de-cohesion of the oxide layer, which results in delamination due to strong compressive stress gradient through the layer. Present paper proposes the use of a modified process named Asymmetric Bipolar Pulsed Plasma (ABiPPS) for plasma-oxidation treatment of low carbon steel AISI-1006 samples. Results show that the ABiPPS process ensures high plasma stability and enables the growth of uniform oxide layers (with thickness up to 6 µm) on metal surfaces. Plasma generated through bipolar asymmetric voltage pulses provides better control on surface bombardment through interspersed jets of ions and electrons, during the oxidation process. The control of intermittent ions and electrons bombardment (through voltage peaks up to 1.5 kV and period about 1µs), during plasma oxidation, make it possible to improve the adhesion between the oxide layer and the substrate, moreover the control of crystalline phases, such as hematite and magnetite.

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