RU2396372C1 - Composition for removal coating out of titanium nitride off surface of items out of titanium alloys - Google Patents

Abstract

FIELD: metallurgy. ^ SUBSTANCE: invention refers to process of removing protective coating, particularly for removing coating out of titanium nitride off surface of items out of titanium alloys and can be implemented in aircraft and power turbine engineering at repair of compressor blades. The composition contains, wt %: 38.5 - 40.5 of nitric acid, 59.2 - 61.3 of hydrofluoric acid, 0.1 - 0.3 of phenyl amine. By treating the item in the disclosed solution coating out of titanium nitride is completely removed off surface of items out of titanium alloys in 1-4 minutes without considerable substrate etching. ^ EFFECT: raised efficiency of protective coating removal. ^ 1 tbl,1 ex

Description

The invention relates to a technology for removing protective coatings, in particular for removing a coating of titanium nitride from the surface of parts made of titanium alloys, and can be used in aviation and energy turbine construction when repairing compressor blades.

A known solution for removing coatings from titanium nitride and carbonitride [RF patent No. 2081207, C23F 1/44, 1/26, 1997], containing, g / l: hydrofluoric acid - 70-100; hydrochloric acid - 40-80; phosphoric acid - 100-290; water is the rest.

A known composition for removing coatings from titanium nitride [RF patent No. 2101389, C23G 1/02, 1998], containing, wt.%: Sulfuric acid - 65-70; nitric acid - 9-10; ammonium fluoride - 18-22; disodium salt of naphthalene disulfonic acid - 2-4.

The disadvantage of these compositions is the possibility of their use only to remove nitride coatings from the surface of steel parts, so they cannot be used in the repair of parts made of titanium alloys. In addition, the sulfuric acid contained in the second specified composition leads to hydrogenation of the surface of titanium alloys during processing, which negatively affects the operational properties of the parts.

The closest in technical essence is the composition for cleaning surfaces of steel and titanium alloys from complex nitride coatings [RF patent No. 2151821, C23G 1/02, 2000], containing, g / l: nitric acid - 28.0-32, 0; potassium tetrafluoroborate - 26.0-30.0; sodium polyphosphate - 0.5 · 10 ^-3 -1.5 · 10 ^-3 ; water is the rest.

The disadvantage of the prototype is the inability to remove the coating from titanium nitride without significant etching of the titanium alloy substrate.

The problem solved by the invention is to expand the functionality of the method by ensuring the removal of the coating from titanium nitride from the surface of titanium products.

The problem is solved in such a way that the composition for removing titanium nitride coatings from the surface of titanium alloy parts containing nitric acid further includes hydrofluoric acid and phenylamine in the following ratio, wt.%:

Nitric acid 38.5-40.5; Hydrofluoric acid 59.2-61.3; Phenylamine 0.1-0.3.

The proposed composition allows for a minimum time to carry out the process of removing the coating from titanium nitride from the surface of titanium alloy parts at room temperature until it is completely removed without significant etching of the substrate.

When using this solution, due to the oxidizing properties exhibited by nitric and hydrofluoric acids, titanium nitride coating components are chemically dissolved, and the addition of phenylamine as an inhibitor allows passivation of parts of the surface of the part freed from the coating and eliminates their hydrogen disturbance.

The proposed composition can be used to remove a coating of titanium nitride, deposited by a vacuum ion-plasma method, from the surface of titanium alloy parts used for the manufacture of compressor blades for aircraft engines and working blades of steam turbines. The removal process is carried out at room temperature on standard equipment using affordable inexpensive reagents.

An example of a specific implementation.

The rotor blade of a VT-6 titanium alloy compressor coated with titanium nitride was chemically etched. Before etching, the surface of the castle part of the blades was isolated from the action of the etching solution by applying at least three layers of acid-resistant varnish to the corresponding surfaces. The blade was immersed in a solution of the following composition, wt.%: Nitric acid (density 1.4 g / cm ³ ) - 39.0; hydrofluoric acid (density 1.155 g / cm ³ ) - 60.8; phenylamine - 0.2 and kept there until the coating was completely removed at room temperature. Then the blade was neutralized in an alkaline solution, washed in running hot and cold water and subjected to cleaning with a hair brush in order to remove the interaction products of the etching solution with the coating elements. At the end of the processing, a visual inspection was carried out to determine the absence of coating, and the surface roughness of the alloy was measured using a profilometer.

Similar tests to remove coatings from titanium nitride were carried out using the composition proposed in the prototype.

Data on the removal of the coating from the blades are presented in the table.

Parameter Time of processing Coating Removal Rate Surface condition after treatment Suggested composition 1 ... 4 min one hundred% Ra 1.6 ... 3.0 μm Prototype 5 days cover not removed on the surface there are pits up to 1.5 mm deep

The table shows that the proposed composition allows for a short time to completely remove the coating of titanium nitride from the surface of the blades of titanium alloy while ensuring a surface roughness of Ra 1.6 ... 3.0 μm. When using the composition proposed in the prototype, the coating is not completely removed even when the parts are kept in solution for 5 days. During this time, on the surface of the blades, mainly along the pores in the coating, deep pits are formed, leading to significant damage to the titanium alloy.

Thus, the claimed invention allows for a short time to achieve complete removal of the coating from titanium nitride from the surface of parts made of titanium alloys without significant etching of the substrate.

Claims (1)

Composition for removing coatings of titanium nitride from the surface of parts made of titanium alloys, including nitric acid, characterized in that it additionally contains hydrofluoric acid and phenylamine, in the following ratio, wt.%:
Nitric acid 38.5-40.5 hydrofluoric acid 59.2-61.3 phenylamine 0.1-0.3