The new concept of thermal barrier coatings with Pt + Pd/Zr/Hf-modified aluminide bond coat and ceramic layer formed by PS-PVD method

Marek Góral,Wojciech Simka,Łukasz Nieużyła,Tadeusz Kubaszek,Maciej Pytel,Marcin Drajewicz

doi:10.1515/htmp-2021-0029

Abstract

AbstractThermal barrier coatings (TBCs) are widely used for protection of gas turbine parts from high temperature and corrosion. In the present study, the new concept of TBCs with three-element-modified aluminide coatings was presented. In the first stage, the Pt and Pd were electroplated on MAR M247 nickel superalloy. In the next stage, the low-activity CVD aluminizing process with Zr or Hf doping was conducted. The ceramic layer containing yttria-stabilized zirconia was obtained by the plasma spray physical vapour deposition (PS-PVD) method. The microscopic examination showed the formation of aluminide coating containing up to 5 at% of Pt and 10 at% of Pd in (Ni, Pt, Pd)Al solid solution. The small concentration of Hf and Zr in diffusion zone of aluminide bond coat was noted as well. The outer ceramic layer was characterized by columnar structure typically formed during the PS-PVD process. The obtained results showed that the new concept of TBCs formed using new processes might be an attractive alternative to conventional coatings produced using the expensive electron beam physical vapour deposition (EB-PVD) method.

Highlights

Thermal barrier coatings (TBCs) are widely used for protection of gas turbine parts from high temperature and corrosion
Based on results of chemical composition analysis, it might be concluded that β-Ni(Al, Pt, Pd) solid solution is the main component of the outer zone
The MAR M247 contains hafnium and its presence in simple aluminide coating formed on similar alloy was observed [19]

Summary

Introduction

Abstract: Thermal barrier coatings (TBCs) are widely used for protection of gas turbine parts from high temperature and corrosion. The obtained results showed that the new concept of TBCs formed using new processes might be an attractive alternative to conventional coatings produced using the expensive electron beam physical vapour deposition (EB-PVD) method. The platinum modification of aluminide coatings is still state-of-art technology for oxidation resistance, improving at high temperature of nickel superalloys used for turbine blade production. The Pt-modified aluminide coatings are usually produced using the Pt-electroplating process and by diffusion aluminizing using out of pack [2] or chemical vapour deposition (CVD) methods [3]. The multiple-element modifications of aluminide coatings can improve their oxidation resistance. As a step of investigation on selected modified aluminide coatings, we deposited the ceramic topcoat using the PS-PVD method. Coatings were analysed using a Scanning Electron Microscope (SEM) type Hitachi S-3400

Experimental

Discussion

Conclusion