DE102007061290A1 - Method for removing a coating from a component comprises preparing the relative movement between the component and a high pressure water jet so that layer removal occurs along first and second parallel processing units - Google Patents

Abstract

Method for removing a coating from a component comprises preparing the relative movement between the component and a high pressure water jet so that layer removal occurs along first parallel processing units and along second parallel processing units. The second processing units run vertical to the first processing units. Preferred Features: The high pressure water jet is moved along the processing units in a translational manner relative to the component.

Description

The The invention relates to a method for stripping a component, in particular a gas turbine component, according to the preamble of claim 1.

components a gas turbine or an engine, such as the blades, or high-pressure turbine parts are for providing an oxidation resistance, a corrosion resistance or erosion resistance on the surfaces with special wear protection coatings Mistake. The components of gas turbines are subject during the operation of the same a wear or can damaged in any other way. Likewise already damage or errors during the production of new parts occur. To repair damages or errors It is usually necessary from the component to be repaired Wear protection coating, partially, or partially also to remove or remove altogether. The removal or Removal of coatings is also referred to as stripping. In the stripping process, a distinction is made between those in which the stripping by mechanical means, chemical or electrochemical Paths done.

The The present invention relates to a method for stripping a component by mechanical means by means of high-pressure water jets, wherein the high pressure water jets on a high pressure water jet the surface of the component to be stripped under provision a relative movement between the component and the high-pressure water jet is directed. In known from practice for delamination a component with the help of high pressure water jets becomes the relative movement provided between the component and the high-pressure water jet in such a way that the stripping exclusively along about parallel machining directions takes place.

From the EP 0 758 572 B1 a method for stripping a component by means of high-pressure water jets is known, in which between the high-pressure water jet and the component to be coated, a relative movement is provided, so that the delamination along elliptical processing directions takes place.

Of these, Based on the present invention, the problem underlying a novel process for stripping a gas turbine component to accomplish.

This Problem is solved by a method for stripping a gas turbine component in the sense of claim 1 solved.

According to the invention the relative movement between the component and the high-pressure water jet provided such that the stripping along first, in approximately parallel machining directions and along from the second, approximately parallel machining direction takes place, wherein the second processing directions are approximately perpendicular run to the first processing directions.

At the The method according to the invention is the relative movement provided between the component and the high-pressure water jet in such a way that the stripping along first, roughly parallel and linear machining directions and along second, in approximately parallel and linear machining directions takes place, wherein the second processing directions in approximately perpendicular to run the first processing directions. This can be a even and complete removal of the component in the region of its surface to be stripped be provided, with grooves on the surface are generated during stripping along the first processing directions, as a point of attack for the stripping along the second Machining directions serve.

According to one preferred embodiment can be provided that the first and / or second processing directions relative to the contour of the Component are driven substantially contour accurate.

To a first advantageous embodiment of the invention, the Decoating first along all first machining directions and then along all second processing directions.

To a second, alternative advantageous development of the invention the stripping alternately along the first processing directions and the second processing directions.

preferred Further developments of the invention will become apparent from the dependent claims and the description below. Embodiments of the Invention are provided without being limited thereto explained in detail the drawing. Showing:

1 a view of a blade to be stripped a gas turbine to illustrate the inventive method for stripping a component.

The invention relates to a method for stripping a component, in particular a gas turbine component, namely for removing a wear protection coating from the surface of the component to be stripped.

1 shows as a component to be stripped a blade 10 a gas turbine containing an airfoil 11 and a blade foot 12 includes. With the help of the method according to the invention, the blade 10 of the 1 on a surface of the airfoil 11 be stripped.

In the method according to the invention, the stripping is carried out by high-pressure water jets, in which case a high-pressure water jet is applied to the surface of the component to be stripped, in accordance with 1 on a surface of the blade to be decoated 11 the shovel 10 , is directed to provide a relative movement between the component and the high-pressure water jet.

For the purposes of the present invention, the relative movement between the component, which according to 1 as a shovel 10 is formed, and the high-pressure water jet provided such that the stripping along first, approximately parallel machining directions 13 and along second, likewise approximately parallel machining directions 14 takes place, both the first processing directions 13 as well as the second processing directions 14 run approximately linearly, and wherein the second processing directions 14 approximately perpendicular to the first machining directions 13 run.

The above relative movement can z. B. be provided by the fact that the high-pressure water jet relative to the fixed, to be stripped component both along the first processing directions 13 as well as along the second processing directions 14 is moved translationally. Alternatively, it is also possible that the component to be stripped relative to the stationary high-pressure water jet both along the first processing directions 13 as well as along the second processing directions 14 is moved. According to a further alternative, the high-pressure water jet can be moved along the first, approximately parallel machining directions and the component to be stripped along the second, approximately parallel machining directions, wherein all these movements are approximately translational.

According to a first advantageous development of the present invention, stripping takes place first along all first processing directions 13 and then along all second processing directions 14 ,

According to a second alternative advantageous development of the invention, the stripping takes place alternately along the first processing directions 13 and the second processing directions 14 ,

Of the High pressure water jet preferably closes with the coating surface of the component an angle of attack between 50 ° and 90 °.

One Pressure of the high-pressure water jet is preferably between 1000 bar and 3800 bar.

The Speed of relative movement between the component and the High-pressure water jet is between 1 mm / sec and 800 mm / sec.

10

shovel

11

airfoil

12

blade

13

first machining directions

14

second machining directions

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• EP 0758572 B1 [0004]

Claims (9)

A method for stripping a component, in particular a gas turbine component, namely for removing a wear protection coating from the surface of the component, wherein a high-pressure water jet is directed to the surface to be coated of the component under provision of relative movement between the component and the high-pressure water jet, characterized in that the relative movement between the component and the high-pressure water jet is provided in such a way that the stripping takes place along first, approximately parallel machining directions and along second, approximately parallel machining direction, the second machining directions being approximately perpendicular to the first machining directions. Method according to claim 1, characterized in that that for this purpose the high pressure water jet relative to the stationary, Entschichtenden component along the first and second processing directions is moved translationally. Method according to claim 1, characterized in that that for this purpose the component to be stripped relative to the fixed High pressure water jet along the first and second processing directions is moved translationally. Method according to claim 1, characterized in that for this purpose, the high-pressure water jet along the first, approximately parallel machining directions and the component to be stripped along the second, approximately parallel machining direction is moved translationally. Method according to one of claims 1 to 4, characterized in that the high pressure water jet with the To be stripped surface of the component a lateral Incidence between -50 ° and + 50 °, and / or a feed angle of 50 ° to 90 °. Method according to one of claims 1 to 5, characterized in that high-pressure water jet a pressure from 1000 bar to 3800 bar. Method according to one of claims 1 to 6, characterized in that the speed of the relative movement between the component and the high-pressure water jet between 1 mm / sec and 800 mm / sec. Method according to one of claims 1 to 7, characterized in that the delamination first along all first machining directions and then along all second processing directions. Method according to one of claims 1 to 7, characterized in that the stripping alternately along the first processing directions and the second processing directions he follows.