This paper presents the results of a detailed study on the influence of thermocyclic electrolyte-plasma treatmenton the structural-phase state, microhardness, and tribocorrosion properties of heat-resistant steel12Kh1MF. The treatment was carried out using a 10 % Na2CO3 aqueous solution and a voltage of 300/150 V.It resulted in the formation of a zonal microstructure with a martensitic surface layer up to 600 μm thick. Thestructure was divided into zones: hardened, thermal influence, and base material. Microhardness increased by1.5 times due to martensitic transformation. X-ray analysis confirmed the formation of α′Fe and Fe3C phases.Tribological tests showed a 10 % reduction in the friction coefficient and a 1.5–2-fold increase in wear resistance.Corrosion tests in a salt fog chamber revealed enhanced protective properties, with mass loss reducedand corrosion resistance improved by 10–30 %, depending on the treatment mode. Based on a comprehensiveanalysis, the most effective thermocyclic treatment mode was identified, ensuring an optimal balanceof mechanical strength and corrosion resistance. The findings highlight the high potential of thermocyclicelectrolyte-plasma treatment as a promising method for enhancing the surface properties of steel componentsoperating in aggressive environments.
Sulyubayeva et al. (Tue,) studied this question.