Abstract
This paper presents the results of studying the structure, physical, and mechanical properties, and heat resistance of Ni-Co-Cr-Al-Y + ZrO2 thermal insulation coatings obtained by highly energized plasma spray on modified equipment using a PNK-50 plasmatron of an original design, involving the linear and circular injection of a powder blend. As a result of optimizing the working process, coatings with the following characteristics were produced: density ρ = 7.6 g/cm3, overall porosity P = 4.3%, open porosity Po = 1%, HV hardness = 980 kgf/mm2, and increased heat resistance. The developed coating is intended for protection against high-temperature gas corrosion and the thermal insulation of the working surfaces of parts of hot gas turbine paths.
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