SU1089489A1 - Coating-to-base adhesion strength determination method - Google Patents

Abstract

METHOD FOR DETERMINING THE STRENGTH OF THE COUPLING COUPLING WITH THE SUBSTRATE The adhesion strength, characterized in that, in order to improve the accuracy of the determination, the sample is either informed by translational movement in the direction perpendicular to the direction of the jet, or by rotational movement. emeschenie around an axis parallel to the jet axis velocity is increased synchronously moving the jet pressure of the sample is measured and extent of line «g jets contact with a covering surface (A tee taken into account in the definition NII strength of adhesion. 00 with 4 to 00

Description

The invention relates to tests of materials, and in particular to methods for determining the adhesion strength of coatings to substrates.

A known method for determining the adhesion strength of a coating to a substrate is that a sample made in the form of a substrate and a coating deposited on it is exposed to a liquid stream under pressure from the side of the latter until the coating is completely destroyed and pressure is measured when the coating is destroyed, the value of which is judged the adhesion strength G 1].

The disadvantage of this method is the low accuracy of determining the adhesion strength of the coating to the substrate due to the uncertainty of establishing the moment of complete destruction.

The purpose of the invention is to increase the accuracy of determining the adhesion strength of the coating to the substrate.

This goal is achieved by the fact that according to the method for determining the adhesion strength of a coating to a substrate, which consists in the fact that a sample made in the form of a substrate and a coating deposited on it is exposed to a liquid stream under pressure from the side of the latter until the coating is completely destroyed and the pressure is measured at the destruction of the coating, the value of which is judged on the adhesion strength, the sample is informed either of translational movement in a direction perpendicular to the direction of the jet, or rotational movement around si, parallel to the axis of the jet, increase the pressure of the jet synchronously with the speed of movement of the sample and measure the length of the contact line of the jet with the coating surface, which is taken into account when determining the adhesion strength.

The drawing shows a diagram of a device for implementing the proposed method.

The device comprises an electric actuator 1, a holder 3 mounted on its axis 2, a pressure chamber 4 with a jHOM junction 5, a compressor 6 connected to the chamber 4 and a control unit 7 connected to the electric actuator 1 and the compressor 6.

The method is as follows.

On the holder 3, the test sample 8 is fixed, made in the form of a substrate and a coating deposited on one of its sides so that the coating faces the nozzle 5 of the pressure chamber 4. The drive 1 is turned on and the translational or rotational movement is communicated to the holder 3. In the case of specifying the translational movement of the sample 8, the holder 3 is moved in the direction perpendicular to the direction · 10 of the jet 9 flowing out of the nozzle 5 of the pressure chamber 4. In the case of specifying a rotational displacement for the specimen 8, the holder 3 is rotated around an axis 2 parallel to the axis of the jet 9. The liquid jet 15 9, upon contact with the surface of the coating, begins to destroy it. In this case, the rate of destruction of the coating depends on the rate of flow of the jet 9 from the nozzle 5 of the chamber 4 pressure 2θ pressure. At the command of the control unit 7, with the help of the electric drive 1 and compressor b, the speed V of the holder 3 moving with the sample 8 and the speed W of the jet 9 expire are changed synchronously. As the sample 8 moves, a trace of destruction from the contact of the jet 9 remains on the coating surface. 8 is carried out until the coating is completely destroyed on the substrate of sample 8 and the destruction rate W * of the outflow of the liquid stream 9 from the nozzle 5 of the pressure chamber 4 is fixed during destruction. After turning off the drive 1 measure the length? the contact line of the jet 9 with the coating surface of sample 8 and calculate the pressure P of the liquid at the time of destruction of the coating according to the formula p = ^w * ¹

V

The pressure of the liquid jet according to known formulas determine the adhesion strength of the coating to the substrate.

The present invention improves the accuracy of determining the adhesion strength of the coating to the substrate by accurately fixing the place of complete destruction of the coating along the length of the line of contact between the jet and the coating surface by ensuring the movement of the test sample relative to the liquid jet.

VNIIIPI Order 2925/41

Circulation 82 3

Subscription

Branch of PPP Patent, Uzhhorod, st. Project, 4

Claims (2)

A METHOD FOR DETERMINING THE STRENGTH OF COATING COATING WITH A SUBSTRATE, namely, that a sample made in the form of a substrate and a coating deposited on it is exposed to a liquid stream under pressure from the side of the latter until the coating is completely destroyed and pressure is measured when the coating is destroyed, the value of which judge the adhesion strength, characterized in that, in order to improve the accuracy of determination, the sample is informed of either translational movement in a direction perpendicular to the direction of the jet, or rotational displacement s around an axis parallel to the jet axis velocity increased pressure synchronously moving the jet _with ob- samples were measured and the length of line contact with $ jet coating surface which account for at opredeleSU, "1089489 to 2ZZZ>