In the paper some functional properties (hardness and oxidation resistance) of platinum and palladium modified aluminide coatings deposited by the CVD method on a nickel-based superalloy were determined. The platinum and palladium microlayers, 3 mu m thick were deposited by electroplating process. The heat treatment of electroplating microlayers was performed for 2h at the temperature 1050 degrees C in an argon atmosphere as to increase adhesion between the coating and the substrate. The low activity CVD aluminizing process of platinum heat treated coatings 3 mu m thick at the 1050 degrees C for 8h using IonBond equipment was performed. The effects of aluminizing process were verified by the use of an optical microscope (microstructure and coating thickness); a scanning electron microscope and an energy dispersive spectroscope (chemical composition of the surface and cross-section of the modified aluminide coating). The hardness measurements on the cross-section of nonmodified and platinum or palladium modified aluminide coatings were performed. Oxidation tests of modified aluminide coatings at the 1100 degrees C for 1000 h in the air atmosphere were carried out. On the grounds of the obtained results it was found that the main phase of the platinum modified aluminide coating is beta-(Ni,Pt)Al. Consequently, the palladium modification of aluminide coating causes the formation of beta-(Ni,Pd)Al phase. The platinum modified aluminide coating has better oxidation resistance than nonmodified and palladium modified aluminide coating. The XRD analysis of the surface of oxidized platinum modified aluminide coating confirmed the presence of the thermodynamically stable oxide layer Al2O3, that has good protective properties. The oxides of NiAl2O4, Al1.98Cr0.02O3 and TiO2 were found on the surface of the palladium modified aluminide coating after 1000 h oxidation at the 1100 degrees C the in the air atmosphere.

• 出版日期2012