Microstructure of Thermal Barrier Coatings (TBC's) Obtained by Using Plasma Spraying and VPA Methods

Marek Goral; Stanislaw Dudek; Ryszard Filip; Jan Sieniawski

doi:10.4028/www.scientific.net/MSF.706-709.2412

Paper Titles

Low Temperature Precipitation in Nb-Added Si- and Si-Free Bainitic Steels
p.2384

Characterization of Precipitation Kinetics of Inconel 718 Superalloy by the Stress Relaxation Technique
p.2393

3D Imaging Using X-Ray Tomography and SEM Combined FIB to Study Non Isothermal Creep Damage of (111) Oriented Samples of γ / γ ' Nickel Base Single Crystal Superalloy MC2
p.2400

Modeling the Electrical Response of Waspaloy due to the Nucleation, Growth, and Coarsening of γ′
p.2406

Microstructure of Thermal Barrier Coatings (TBC's) Obtained by Using Plasma Spraying and VPA Methods
p.2412

Tensile Properties of Low Angle Boundaries of Single Crystal Superalloy DD6
p.2418

DTA Analysis on the Solidification Behavior of the Al₂O₂-Y₂O₃-ZrO₂ Ternary Oxide System and Microstructural Investigation
p.2424

Crack Growth Behavior in ATI 718Plus^® Alloy
p.2428

Precious Metals in High Temperature Applications - The Cause of Damage and its Avoidance
p.2434

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Microstructure of Thermal Barrier Coatings (TBC's) Obtained by Using Plasma Spraying and VPA Methods

Abstract:

Thermal Barrier Coatings are the main type of coatings used for protecting turbine blade surfaces and the surface of modern jet engines combustion chamber parts. Depending on the type of engine element, the coatings are produced as plasma-sprayed MeCrAlY bond-coats with a ceramic outer layer or as Pt-modified aluminide coatings with a ceramic EB-PVD-deposited layer. Currently, research is being conducted on the deposition of a new type of coatings consisting of bond-coats with mulitlayer structure. In the article, the results of the study on the obtainment of TBC's with multilayer structure are presented. To obtain the metallic bond-coat, the process of atmospheric plasma spraying and the out of pack aluminizing (VPA) method were combined. The coatings were deposited on the surface of Rene 80 nickel superalloy. The first layer of the coating was a plasma-sprayed MCrAlY bond-coat, on which a diffusion aluminide layer was deposited with out of pack method. On the bond-coat, a standard ceramic zirconium oxide (ZrO₂*20Y₂O₃) layer was deposited. The microstructure analysis, was conducted, using light and SEM microscopy. The phase and chemical composition analyses were done using EDS and XRD methods.