EP2845998A1 - Component and method for decoating a component - Google Patents

Abstract

The invention relates to a component comprising a base body made of a base material (1) and a coating (5) to be removed, wherein an intermediate layer (2) is provided between the base material (1) and the coating (5) to be removed can be activated so that thereby a detachment of the coating to be removed (5) can be accomplished. In addition, the invention also relates to a method for stripping a component.

Description

The invention relates to a component comprising a base body made of a base material and a coating to be removed and a method for delaminating such a component.

High temperature resistant components of a power plant, e.g. the blade generally has a cobalt-based or nickel-base superalloy body. On this base material, a primer layer of the type MCrAlY is applied. In this case, M denotes, for example, a combination of the metals nickel and cobalt. Cr stands for chromium and Al for aluminum and Y for yttrium. A ceramic layer (TBC layer) of zirconium oxide can be applied to this adhesion promoter layer. The components of gas turbines are subject to wear during operation or may be damaged in any other way, resulting in damage to the TBC layer and the adhesive layer. For the recycling of the components, it is usually necessary to completely remove the coating. The removal or removal of coatings is also referred to as stripping. Subsequent re-coating can allow a further life cycle of the turbine blades, which is why there is great interest in effective stripping.

When removing turbine blades, for example, it is necessary to remove the used coatings, such as MCrAlY coatings as well as thermal protective coatings.

Such a method for stripping of components is in the EP 1 314 797 A2 described. This is a chemical stripping process. The component to be stripped is placed in a solution with hydrochloric acid and an attack immersed in the base material of the component reducing inhibitor. The decoating bath formed by the hydrochloric acid causes the dissolution of the coating.

In the stripping process, a distinction is made between those in which stripping takes place by mechanical means, by chemical means or by electrochemical means. The electrochemical stripping is based on the principle of electrolysis.

During stripping, for example, the TBC layer is radiated abrasive with Al ₂ O ₃ as a blasting medium. Subsequently, the MCrAlY is removed by acid. Remaining residues are then removed mechanically. However, these are lengthy work processes that are associated with time and costs.

The first object of the invention is the specification of a coated component in which a simple detachment of the coating is possible. The second object of the invention is to specify a method for stripping such a component.

The first object is achieved by the specification of a component comprising a main body of a base material and a coating to be removed, wherein between the base material and the coating to be removed, an intermediate layer is provided which can be activated by a pulse, thereby causing a separation of removing coating is accomplished.

The second object is achieved by specifying a method for stripping a component with an intermediate layer as described above, wherein the intermediate layer is activated by a pulse, thereby causing a detachment of the coating to be removed.

Thus, according to the invention, an intermediate layer between the base material and the coating to be removed, for example MCrAlY brought in. After the operational stress, the intermediate layer is activated by a pulse in the reprocessing of the component, which leads to the detachment of the coating to be removed. By means of the method according to the invention and the component according to the invention, a clear reduction of the throughput times during stripping is effected. For example, stripping in the prior art takes up to 16 days. In the stripping according to the invention, however, only one day is needed.

In addition, the inventive method and the component according to the invention are environmentally friendly, since no aggressive acids along with disposal are necessary. When stripping the state of the art, coating residues remain in the blasting material and in the acid, which subsequently have to be disposed of. With the method according to the invention and the component according to the invention only pure coating residues remained for disposal. In addition, with the method according to the invention and the component according to the invention, the base material attack by aggressive acids, such as e.g. in the stripping process in the prior art.

Preferably, the pulse is an electrical and / or chemical and / or electrochemical pulse. Of course, electromagnetic pulses or others are also possible.

Preferably, the intermediate layer can be activated by applying an electrical voltage to the component. This can be, for example, an induction voltage. If the component is a blade, e.g. a high frequency field between the blade root and blade tip are generated.

Preferably, the component is embedded in an electrolyte solution. The intermediate layer is then activated by applying a voltage, for example an induction voltage. In this case, the electrolyte solution can be suitably selected. Preferably, the intermediate layer is an increase in volume intermediate layer, which is expandable by activating the pulse. Here, a volume-increasing intermediate layer between the base material and the coating to be removed, for example MCrAlY is introduced. After the operational stress, during the reprocessing of the component, the intermediate layer is activated by a pulse of, for example, electrical and / or chemical and / or electrochemical nature, which leads to the expansion of the intermediate layer and thus the detachment of the entire coating to be removed is achieved.

The volume-increasing intermediate layer preferably comprises nanotubes. These are particularly suitable for high-temperature components.

Preferably, a complete detachment of the coating to be removed can be accomplished. So far remain coating residues, which must be removed with costly rework. The invention enables a complete detachment of the entire layer. This significantly speeds up the stripping process.

The coating to be removed preferably comprises at least one adhesion promoter layer, in particular of MCrAlY. Also, the coating to be removed may comprise at least one thermal barrier coating, in particular a ceramic thermal barrier coating. This is especially beneficial for gas turbine blade or other components that are exposed to very high temperatures.

Preferably, the base material comprises a base material and a layer. The intermediate layer is in this case arranged on the layer. Of course, several layers can be applied to the base material.

Preferably, the component is a turbine blade.

• FIG 1 schematisch einen Ausschnitt eines erfindungsgemäßen
  Bauteils,
• FIG 2 schematisch das Verfahren anhand einer Schaufel.

Further features, properties and advantages of the present invention will become apparent from the following description with reference to the accompanying figures. In it show schematically:

• FIG. 1 schematically a section of an inventive
  component,
• FIG. 2 schematically the method using a blade.

FIG. 1 shows a section of a component according to the invention. This shows a main body, which consists of a base material 1. Of course, this base material may also be a base material coated with one or more layers. On this base material 1, an intermediate layer 2 is now applied. On the intermediate layer 2, for example, a bonding agent layer 3, for example of MCrAlY and a thermal barrier coating 4 are applied here. Of course, only one thermal barrier coating 4 may be applied without adhesive layer 3, or a primer layer 3 without thermal barrier coating 4. If components subject to operating conditions are reprocessed, the old coating 5 (here: adhesive layer 3 + thermal barrier coating 4) is to be removed.

According to the invention, the intermediate layer 2 between base material 1 and the coating 5 to be removed, i. here the thermal barrier coating 4 and the adhesive layer 3 applied. After the operational stress, the intermediate layer 2 is activated by a pulse of chemical and / or electrical and / or electrochemical nature in the reprocessing, which leads to the detachment of the entire coating 5 to be removed. The coating 5 to be removed is almost completely "blown off".

The intermediate layer 2 may be, for example, a volume-increasing intermediate layer 2. This may include, for example, nanotubes. After the service stress is at the reprocessing the volume-increasing intermediate layer 2 is activated by a pulse of chemical and / or electrical and / or electrochemical nature, which leads to the expansion of the volume-increasing intermediate layer 2 and thus thus the detachment of the entire coating 5 to be removed is achieved.

The activation of the intermediate layer 2 takes place by applying an electrical voltage. If the component is a blade, e.g. a high frequency field between the blade root and blade tip are generated.

Also, the component, here a blade, can be embedded in an electrolyte solution 6, as in FIG FIG. 2 shown. By applying an electrical induction voltage 7, the intermediate layer 2 is activated ( FIG. 2 ). This leads to a complete detachment of the entire coating 5 to be removed. If the intermediate layer 2 is configured as a volume-increasing intermediate layer 2, it expands in that the coating 5 to be removed is completely detached.

The invention results in a significant reduction of throughput times during stripping. This saves time and costs. In addition, the component is environmentally friendly with the method according to the invention, since no aggressive acids and their disposal are necessary.

Also, no coating residues occur, which are to be removed in the prior art with elaborate rework. In contrast, according to the invention, a complete detachment of the entire coating 5 is made possible. Also, the base material 1 is not damaged or attacked by aggressive acids. As a result, a new coating of the components is easily possible.

In the state of the art, the coating residues remain both in the blasting material (in the case of abrasive removal) and in the acid. These must then be disposed of with. By the invention, only coating residues are present, which must be disposed of.

Claims (16)

Component comprising a base body made of a base material (1) and a coating (5) to be removed,
characterized in that between the base material (1) and the coating to be removed (5) an intermediate layer (2) is provided, which can be activated by a pulse, so that thereby a detachment of the coating (5) to be removed can be accomplished. Component according to claim 1,
characterized in that the pulse is an electrical and / or chemical and / or electrochemical pulse. Component according to one of the preceding claims,
characterized in that the intermediate layer (2) can be activated by applying a voltage to the component. Component according to one of the preceding claims 1-3,
characterized in that the component is embedded in an electrolyte solution (6) and the intermediate layer (2) can be activated by applying a voltage (7). Component according to one of the preceding claims,
characterized in that the intermediate layer (2) is an increase in volume intermediate layer (2), which is expandable by activating the pulse. Component according to claim 5,
characterized in that the volume- increasing intermediate layer (2) comprises nanotubes. Component according to one of the preceding claims,
characterized in that a complete detachment of the coating (5) to be removed is accomplished. Component according to one of the preceding claims,
characterized in that the coating (5) to be removed comprises at least one adhesion promoter layer (3), in particular of MCrAlY. Component according to one of the preceding claims,
characterized in that the coating (5) to be removed comprises at least one thermal barrier coating (4), in particular a ceramic thermal barrier coating. Component according to one of the preceding claims,
characterized in that the base material (1) comprises a base material and a layer. Component according to one of the preceding claims,
characterized in that the component is a turbine blade. Process for stripping a component with an intermediate layer (2) according to one of Claims 1 to 11,
characterized in that the intermediate layer (2) is activated by a pulse, thereby causing a detachment of the coating (5) to be removed. Process for stripping a component according to claim 12,
characterized in that the pulse is carried out electrically or / and chemically and / or electrochemically. Process for stripping a component according to claim 12 or 13,
characterized in that the intermediate layer (2) is designed as a volume-enlarging layer which expands upon activation of the pulse, causing a detachment of the coating (5) to be removed. Process for stripping a component according to one of claims 12 to 14,
characterized in that the component is embedded in an electrolyte solution (6) and the activation of the intermediate layer (2) via the application of a voltage (7). Process for stripping a component according to one of claims 12 to 14,
characterized in that the activation of the intermediate layer (2) takes place via the application of a voltage to the component.

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