Journal ArticleDOI
Novel processing in inert atmosphere and in air to manufacture high‐activity slurry aluminide coatings modified by Pt and Pt/Ir
TLDR
In this article, the microstructural evolution of slurry-derived coatings manufactured on CM 247 in inert atmosphere as well as in air was investigated, and it was demonstrated that iridium has a high influence on the diffusion behavior and especially the distribution of platinum in the coatings.Abstract:
Slurry-derived coatings are an interesting alternative method to pack aluminization of nickel-base superalloys, which provide similar properties and protection at high temperatures. For highest performance, these aluminide coatings are modified by the addition of Pt or, as recent research suggests, with Pt/Ir. While the combination of Pt and Pt/Ir with an out-of-pack process is state of the art, slurry coatings are of special interest as a repair method for turbine blades. In this study, the microstructural evolution of slurry-derived coatings manufactured on CM 247 in inert atmosphere as well as in air was investigated. Layers of Ni, Pt, and Pt/Ir mixtures were electrodeposited. After annealing, a diffusion heat-treatment with a slurry containing aluminum or aluminum–silicon powder was applied on the samples. The addition of silicon is well known to be beneficial for hot corrosion environments. The reaction and interdiffusion behavior of aluminum/aluminum–silicon determines the microstructural evolution of the coatings. Depending on the initial electroplated layer on the surface, different microstructures can be obtained, such as the Pt/Ir-modified beta phase (Ni,Pt)Al or two-phase layers of PtAl2 and NiAl. Additionally, the reactivity between the elements at the surface and those from the slurry was shown to determine homogeneity and surface roughness of the diffusion coating, also depending on the atmosphere used during slurry aluminization. Finally, it was demonstrated that iridium has a high influence on the diffusion behavior and especially the distribution of platinum in the coatings. Such new coatings have the potential to overcome some disadvantages of conventionally manufactured high-activity aluminide coatings, as the combination of Pt/Ir-electroplating with the slurry process results in less detrimental substrate elements like molybdenum or tungsten close to the surface.read more
Citations
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Journal ArticleDOI
The role of combustion synthesis in the formation of slurry aluminization
TL;DR: In this article, the authors investigated the formation mechanisms during heat treatment processes on pure nickel using slurries, which contain high amounts of micro-sized aluminium particles, and showed the importance of combustion synthesis on the formation of slurry coatings on nickel.
Journal ArticleDOI
Low-activity aluminide coatings for superalloys using a slurry process free of halide activators and chromates
Abstract: Slurry aluminide coatings have been well known for a number of years and are widely used to protect metallic surfaces from oxidation and corrosion. A variety of commercial slurries is available to aluminize the surfaces of nickel-based superalloys, however, they have several disadvantages. They contain environmentally harmful substances such as chromates or halides which are used as binders or to activate the diffusion species. Additionally, up to now slurry coatings were only used to produce precipitate-rich coatings, with a microstructure comparable to high aluminum activity coatings produced by chemical vapor deposition (CVD) like pack cementation. In this work these limitations have been overcome by carefully designing the powder composition of the slurry. Three different nickel-aluminide coatings were developed and applied onto CM-247 nickel-based alloy and Pt-diffused CM-247. By addition of chromium we achieved coatings with a similar microstructure and Al-content (of around 40 at.%), comparable to the state of the art low-activity coatings produced by CVD. Co-deposition of silicon was also achieved in a single step, maintaining the low-activity structure by combining Al–Si powder and chromium. Furthermore, this coating procedure was combined with a platinum electrodeposition step in order to produce single phase Pt-modified low-activity aluminide coatings.
Journal ArticleDOI
Oxide scale formation and microstructural degradation of conventional, Pt- and Pt/Ir-modified NiAl diffusion coatings during thermocyclic exposure at 1100 °C
TL;DR: In this paper, the microstructural degradation of Pt- and Pt/Ir-modified NiAl coatings during thermocyclic exposure at 1100°C was investigated, and detailed micro-structural investigation revealed the different beneficial effects of Pt and Ir.
Journal ArticleDOI
Effect of TGO evolution and element diffusion on the life span of YSZ/Pt–Al and YSZ/NiCrAlY coatings at high temperature
TL;DR: In this paper, the growth of thermally grown oxides (TGO) on Pt-Al and NiCrAlY bond coats and the element diffusion behavior were investigated, and a triple-layer TGO was generated.
Journal ArticleDOI
Impacts of Applied Stresses on High Temperature Corrosion Behavior of HR3C in Molten Salt
TL;DR: In this article, the corrosion behavior of austenitic steel HR3C in Na2SO4-K2SO 4 molten salt and the impacts of applied stresses were studied at 700 and 750 °C.
References
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Journal ArticleDOI
Effects of Platinum on the Interdiffusion and Oxidation Behavior of Ni-Al-Based Alloys
TL;DR: In this article, the phase equilibria in the Ni-Al-Pt system and the influences of alloy composition on the formation, growth and spallation behavior of the resulting TGO scales formed during isothermal and thermal cycling tests at 1150°C were investigated.
Journal ArticleDOI
Interdiffusion of the platinum-group metals in nickel at elevated temperatures
TL;DR: In this article, the authors measured diffusion profiles of the platinum group metals Ir, Pd, Pt, Rh and Ru with nominally pure nickel and found that the magnitude of interdiffusion coefficient correlates strongly with the atomic radius of the interdiffusing transition metal species.
Journal ArticleDOI
Aluminide coating formation on nickel-base superalloys by pack cementation process
TL;DR: In this paper, a detailed study was carried out to investigate the effects of pack powder compositions, coating temperature and time on the aluminide coating formation process on a superalloy CMSX-4 by pack cementation.
Journal ArticleDOI
On the rumpling mechanism in nickel-aluminide coatings: Part I: an experimental assessment
V.K. Tolpygo,David R. Clarke +1 more
TL;DR: Progressive roughening (rumpling) of the surface of platinum-modified nickel aluminide bond coats during cyclic oxidation at 1150 °C was studied in this paper.
Journal ArticleDOI
Degradation of the platinum aluminide coating on CMSX4 at 1100 °C
J.H. Chen,J.A. Little +1 more
TL;DR: In this article, the interdiffusion behavior of a Pt-aluminide coating on CMSX4 was investigated in air at 1100 °C for up to 600 h. During exposure, platinum and aluminium in the coating diffused inward into the substrate while nickel in the substrate of CMS X4 diffused outward into the coating.