Process for treating the surface of a component, made from a...

Metal treatment – Process of modifying or maintaining internal physical... – Heating or cooling of solid metal

Reexamination Certificate

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C148S537000, C228S206000, C427S328000

Reexamination Certificate

active

06440238

ABSTRACT:

FIELD OF INVENTION
The invention relates to a process for treating the surface of a component prior to coating, wherein the component is made from a Ni based superalloy and designed for high temperature service, e.g. components for gas turbine engines, and the coating and the component both include the elements Al and/or Cr. The method can also be used for replacing the coating of a used component.
STATE OF THE ART
Components designed for high temperature use, e.g. blades or vanes of a gas turbine, are usually coated with corrosion and oxidation resistant coatings. The coating protects the base material against corrosion and oxidation due to the thermal effect of the hot environment and consists of an alloy mainly of the elements Al and Cr, e.g. MCrAlY. During operation of the component, the coating is slowly oxidized and/or corroded away, and at some point in time is either completely removed or reaches a minimum design limit which is no longer suitable for continued operation.
Components subject to coating wear and/or other damage during service are removed from service at regular intervals for repair and/or reconditioning during which any residual coating is stripped, various repairs are made, and a new coating applied. In addition, it is possible that new components are improperly coated during manufacturing and must have the coating stripped in order for an acceptable quality coating to be applied.
In the past, coatings with a higher Al content were used to provide higher oxidation resistance at increased temperatures. As a base material, a superalloy such as a Ni based superalloy was often used. Such a Ni based superalloy is disclosed in U.S. Pat. No. 5,759,301. A problem occurs due to the fact that the content of Al and Cr is significantly higher in the coating than in the base material. As a result, an undesired intermetallic phase (gamma prime Ni
3
Al) occurs between the coating and the base material.
Ni based superalloys are typically heat treated so as to precipitate cubic gamma prime particles surrounded by a softer gamma matrix. At very high volume fractions, the gamma prime phase tends to form in continuous rafts or bands which offer much reduced resistance to crack growth and creep compared to the dispersed condition mentioned above. Further, overheating during service of Ni based superalloy components can lead to rafting of gamma prime into semicontinuous bands even at the normal gamma prime volume fractions of these superalloys. Components exhibiting this microstructure are unsuitable for further service because of the weakening effects of the gamma prime rafts.
When a typical MCrAlY coating is applied to the surface of a component made from a Ni base alloy, a diffusion heat treatment is normally required in order to ensure a high quality bond between coating and base material. During the heat treatment and subsequent operation of the component at high temperatures, Al and Cr from the coating diffuse into the surface of the base material forming an “interdiffusion zone” in which continuous bands of gamma prime often precipitate. The gamma prime bands form primarily due to the enrichment of the “interdiffusion zone” with Al which directly contributes to Ni
3
Al formation, and also due to the presence of Cr which increases the thermodynamic activity of Al. The “interdiffusion zone” after extended time in service can extend up to approximately 200 &mgr;m into the component beyond the coating/component-interface.
It is understood that very often the cracks leading to coating spallation occur not in the base-material/coating interface itself but in the brittle interdiffusion zone, along the gamma prime bands. This effect has been recognized in U.S. Pat. No. 5,556,713, which discloses a diffusion barrier formed by ion implantation of Re atoms onto the surface of the base material before coating. The purpose of the diffusion barrier is to stop the harmful diffusion of Al and Cr into the base material and, consequently, the formation of brittle continuous bands of gamma prime.
This effect is also indirectly recognized by U.S. Pat. No. 5,728,227 where a method for removing a diffusion coating from a nickel based alloy is disclosed. This method involves mechanically removing the outer coating to expose the diffused inner coating portion or “interdiffusion zone” and by depleting the extra Al in the exposed surface layer. The component may have been used in service, or may simply have been improperly coated and in need of a repair coating. According to the '227 patent, the method can be considered to reverse the prior diffusion of Al into the surface portion from a previously applied coating. The '227 patent applies only to previously coated or service run components.
Furthermore, the mechanical removal means disclosed in the '227 patent may impart considerable residual stresses to the component surface. While this is not of great concern for components manufactured with an equiaxed grain structure, components with a directionally solidified structure (columnar grains or single crystal) are extremely prone to recrystallization from such residual stresses if heat treated to regenerate a desired distribution of gamma prime. Recrystallization in such components profoundly decreases their resistance to failure under creep and cyclic loading, and usually results in their being scrapped. This problem has been recognized in U.S. Pat. No. 5,598,968, in which a solution for the recrystallization problem is presented by causing a precipitation of carbides in the surface layers of the component. However, the carbide precipitation requires an expensive and time consuming heat treatment and ultimately alters the originally intended composition and structure of the base alloy of the component.
The current state of the art for preparing previously coated parts is to strip the coating off the part either mechanically or chemically, clean the surface by various means, including transfer arc cleaning, and re-coat. U.S. Pat. No. 5,728,227 discloses mechanical stripping. Although mechanical stripping is advantageous for parts (e.g. in aeroengines) which are destined to undergo several re-coating operations during their service lives, there is little advantage for those parts which will only be subject to two or three such re-coating operations and, in particular, no advantage for newly coated parts with defective coatings in need of repair. Such newly coated parts would have a very small interdiffusion zone.
As for new components, apart from exotic solutions to the diffusion zone problem such as the diffusion boundary layer, the established art on surface preparation before coating discloses surface cleaning operations such as grit blasting, surface grinding, etching and/or transfer arc cleaning. However, all of these processes are only designed to remove unwanted inclusions or contaminants from the surface of the component, and have no significant effect on the chemical composition of the surface layer. No other methods are given which would avoid the formation of the brittle interdiffusion zone.
SUMMARY OF THE INVENTION
It is the aim of the present invention to overcome these disadvantages. The invention provides a process of treating the surface of a component designed for high temperature service e.g., a Ni based superalloy, prior to coating to prevent an interdiffusion zone between component and coating. The method can also be used for repairing an already coated component.
In the present invention, a component designed for high temperature service, e.g., a Ni based superalloy, is prepared for coating by depleting the outer surface of the component of any one or a combination of Al, Cr and Ti and applying the coating directly onto the depleted surface.
The advantage of the process is that the creation of a layer depleted of Al and/or Ti and/or Cr in the base material of a newly manufactured part before coating impedes the formation of a continuous layer of gamma prime even when Al and Cr diffuse into the component during the diffusion heat treatment after coating, or dur

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