RU90562U1 - INSTALLATION FOR TESTING TENSION COATINGS - Google Patents

Abstract

Installation for testing tensile coatings containing a base on which there is a dynamometer and a test sample fixed in clamps, one of which is connected to a dynamometer, and the other to a device for loading the sample, characterized in that the device for loading the sample is configured its smooth loading and consists of a series-connected electric motor, gearbox, clutch discs, one of which is mounted on the axis of the gearbox and connected to the longitudinal movement lever, and the other n with a pair of "screw - nut", providing the conversion of rotational motion into translational.

Description

The claimed technical solution relates to testing equipment, in particular to installations that allow micromechanical testing of thin samples of materials (films, foils, coatings, etc.) under tension.

A device for micromechanical testing is known, which contains a base, a test sample fixed in clamps, one of which is connected to a means for generating tensile forces in the sample, and the other to a force meter consisting of a force measuring bracket and dial gauge / RU 58708 U1, IPC 8 G01N 3/08, publ. November 27, 2008 /.

The reason that impedes the achievement of the claimed technical result is the fact that the known device does not provide a smooth application of the load necessary for micromechanical tests.

The task to which the claimed technical solution is directed is the development of such a plant design that would meet the necessary requirements for conducting micromechanical tests for axial tension of thin films and foils.

When implementing the proposed technical solution, the task is solved by achieving a technical result, which consists in ensuring smooth application of the load during micromechanical tests.

The specified technical result is achieved by the fact that in the installation for testing tensile coatings containing a base on which the dynamometer and the test sample are mounted, fixed in clamps, one of which is connected to the dynamometer, and the other to the device for loading the sample, the feature is that the device for loading the sample is made with the possibility of smooth loading and consists of a series-connected electric motor, gearbox and clutch discs, one of which is mounted on the re axis uktora and is connected to the lever longitudinal movement, and on the other - is connected to a pair of "screw-nut", providing rotational motion into linear transformation.

The inventive device for loading the test sample due to the clutch discs ensures smooth application of the load on the sample during testing when the motor is turned on.

In FIG. schematically shows an installation for testing tensile coatings.

The installation contains a base 1, on which there is a dynamometer 2 and the test sample 4, mounted in the clamps 3 and 5, and a device for loading the test sample (loading device).

Sample 4, is, for example, a plated coating, separated from the base

The clamp 3 is connected to the dynamometer 2, and the clamp 5 is located, for example, in the bearing 6, and is connected by a screw-nut pair 7.

The device for loading the test sample 4 consists of a series-connected electric motor 8, gearbox 9 and clutch discs 10. One of the clutch discs 10 is mounted on the axis of the gearbox 9 and is connected to the longitudinal movement lever 11, and the other is connected to the screw-nut pair 7 and clamp 5.

As the electric motor 8, for example, a brushless DC motor is used, which is powered from a pulsed stabilized DC power supply 12.

As a dynamometer 2, it is possible to use a dynamometer DPU - 0.02-2.

Installation works as follows.

During testing, sample 4 is fixed in clamps 3 and 5, one of which is connected to a dynamometer 2, and on the other to a screw-nut pair 7. The loading of sample 4 is carried out by turning on the electric motor 8, which transfers rotation to one of clutch discs, which when turning the lever 11 smoothly enters the clutch with another disc, transmitting the rotation of the pair "screw - gull" 7, which converts the rotational motion into translational. The force value is determined by the dynamometer 2.

To determine the tensile strength σ _B, sample 4 is smoothly loaded until fracture, and σ _{B is} calculated from the value of the ultimate load P _B and the cross-sectional area of the sample F _o :

When determining the yield stress σ _0.2, sample 4 is loaded to a certain value, then unloading is carried out to the initial load, conventionally assumed to be zero.

Increasing the load at each subsequent loading of sample 4, control the elongation. The magnitude of the load P _0.2 , when the permanent deformation was 0.2%, calculate the conditional yield strength σ _0.2 :

The relative elongation δ is defined as the ratio of the increment of the estimated length of the sample after fracture to the initial calculated length.

where L _o , L _k - respectively, the initial and final calculated length, mm, of sample 4.

Claims (1)

Installation for testing tensile coatings containing a base on which there is a dynamometer and a test sample fixed in clamps, one of which is connected to the dynamometer, and the other to the device for loading the sample, characterized in that the device for loading the sample is made with the possibility its smooth loading and consists of a series-connected electric motor, gearbox, clutch discs, one of which is mounted on the axis of the gearbox and connected to the longitudinal movement lever, and the other n with a pair of "screw - nut", providing the conversion of rotational motion into translational.