SU1308882A2 - Method of determining strength of coating-to-substrate adhesion - Google Patents

Abstract

The invention relates to a test technique, is intended to determine the strength of adhesion of a coating to a substrate, is an improvement to the basic author. St. No. 1089489 and allows to increase the accuracy of determination when tested by taking into account the length of the jet of liquid at the time of destruction of the coating. Sample 10, made in the form of a substrate and coated on it, is reported as either a translational movement from the electric actuator 1 in a direction perpendicular to the direction of the jet / flfi-I f I 11 liquid, or a rotational movement around the axis 2 parallel to the axis of the jet 11, and the translational moving from the actuator 7 in a direction parallel to the axis of the jet 11 towards the latter. The liquid layer 11, when in contact with the surface of the coating, begins to destroy it. At the same time, a synchronous change in the speed of movement of the sample 10 and a change in the distance between the surface of the coating and the beginning of the outflow of the jet 11 of the fluid ensure a uniform effect of the jet 11 on the coating. Measure the length S of the contact line of the jet 11 with the surface of the coating of the sample 10 and calculate the pressure P of the liquid at the time of the destruction of the coating using the formula P 0.5, where p is the density of the liquid; | 3 - constant value, determined from experience; d is the diameter of the nozzle; - jet discharge rate at the nozzle exit; w is the speed of sample movement in a plane parallel to the jet axis. The adhesion of the coating to the substrate is determined from the pressure of the jet of liquid by known formulas. 1 il. flfi-I I - & (/) 30 30 ISJ

Description

The invention relates to a sampling technique, namely to methods for determining the adhesion strength of coatings to substrates, and is an improvement of the known method according to the authors. St. No. 1089489.

The aim of the invention is to improve the accuracy of determining the adhesion strength of a coating with a substrate by taking into account the length of the liquid jet at the time of the destruction of the coating.

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

The device includes an electric drive 1, a holder 3 mounted on its axis 2, a pressure chamber 4 with a nozzle 5, a compressor 6 connected to the chamber 4, a linear movement actuator 7 of the electric drive 1 with a direction 8, a control unit 9 connected to it. electric drive 1, drive 7 and compressor 6.

The method is carried out as follows.

The test sample 10, made in the form of a substrate and coated on one of its sides, is fixed on the holder 3, so that the coating faces the nozzle 5 of the pressure chamber 4. The actuator 1 and the actuator 7 are turned on and the holder 3 is provided with a translational or rotational movement from the electric drive 1 and simultaneously a translational movement from the driver 7 along the guide 8. If the translational movement from the electric actuator 1 is set to sample 10, the holder 3 is moved in the direction perpendicular to the direction of the jet 11 flowing from the nozzle 5 of the pressure chamber 4. In the case of a rotational movement sample 10, the holder 3 is rotated around an axis 2 parallel to the axis of the jet 11. In the case of translational movement of the sample 10, the holder 3 moves in the direction, the sample is simultaneously reported in translational direction in a direction parallel to the axis of the jet, and the distance between the sample

The scientific research institute parallel to the axis of the jet 11 on „,, 1, sn and the nozzle section synchronously with the displacement of the latter. Str 11 liquid ee t h

the specimen in a direction that is perpenpri contact with the surface of the coating, t

directional direction of the jet.

VNIIPI Order 1790/34 Circulation 777 Subscription Proizv.Poligr. pr-tie, Uzhgorod, st. Project, 4

starts to destroy it. The speed of destruction of the coating depends on the speed of the outflow of the jet 11 from the nozzle 5 of the pressure chamber 4 and the distance from the surface of the sample 10 to the nozzle 5. At the command of the control unit 9, the speed and, w, respectively, are changed synchronously with the actuator 1 and the drive 7 sample 10 in a plane perpendicular and parallel to the axis of the jet 11. As sample 10 moves on the surface of the coating, a trace of destruction from contact of the jet 11 remains on it. Moving sample 10 until the coating is completely destroyed. While moving the sample 10 towards the jet 11 provides a uniform effect on the floor. After turning off the drive 7 and the electric drive 1, the length S of the contact line of the jet 11 with the surface of the sample 10 is measured, and the pressure P of the fluid is calculated at the time the coating is destroyed by the formula

R

0.5 .V

where P is the density of the liquid;

| 3 - constant value, determined from experience; d is the diameter of the nozzle; VPJ, jet flow rate

at the nozzle outlet.

The adhesion of the coating to the substrate is determined from the pressure of the jet of liquid by known formulas.

Claims (1)

Invention Formula Method for determining the adhesion strength of a coating with a substrate according to ed. No. 1089489, different 45 determination, the sample is simultaneously reported to move in a direction parallel to the jet axis, and the distance between the sample is changed