Research of a heat-resistant intermetallic underlayer for the heat-shielding coating of gas turbine engine turbine blades

The paper presents the results of research of the structure as well as physical and mechanical properties of a heat-resistant intermetallic coating of a “Ni-Co-Cr-Al-Y” system produced by the method of high-energy plasma powder spraying and used as a substrate in forming a heat-shielding zirconium dioxide coating. A coating is produced with an intermetallic phase composition (b-NiAl+ g’-Ni₃Al) and spheroidal grain microstructure. The density of the coating is r=8200 kg/m ³, the microhardness is Н_m=7,85 GPa and the roughness is 5mkm. According to the results of testing the heat shielding of the wall of a turbine blade made of the ЖС6Ф alloy with the help of a heat-shielding ZrO₂ coating with a “Ni-Co-CR-Al-Y” substrate the metal temperature reduction amounted to 398 K. The coating is intended for the protection of the working surface of various-application gas turbine engine turbine blades against high-temperature gas corrosion in the form of a substrate for the heat-shielding zirconium dioxide coating, and also as an independent heat-shielding coating. The plasma heat-shielding coating for the “Ni-Co-CR-Al-Y” system has been tested as a substrate for a heat-shielding coating of zirconium dioxide with a view to extending the service life of turbine blades (made of a heat-resistant ЖС6Ф alloy) of the NK series gas turbine engine turbines.