SU1245936A1 - Device for testing materials for wearing - Google Patents

Abstract

A device for testing materials for wear is in the field of testing the frictional properties of materials for friction and wear. The purpose of the invention is to simplify the device by performing a sample with annular grooves, the inner walls of which interact with the samples. When creating pressure in the annular grooves 7, the inner walls 8 are deformed, and specimens 6 are clamped along the outer cylindrical surface. Due to the bevel of the end face of the disk counter piece relative to its axis of rotation, the samples 6 perform a reciprocating motion. When moving to the right, the force acting on the sample 6 is equal to the sum of the forces from the hydraulic medium of the groove 9 and the force arising from the contact of the sample 6. with the walls 8, while moving to the left their forces are equal to the difference. Thus, the load on specimens 6 varies from a minimum to a maximum value, which creates a variable contact load of the specimens. G il. (L 68 7 Yu 16

Description

This invention relates to the field of testing the friction and wear properties of materials for materials.

The purpose of the invention is to simplify the device.

The drawing shows a device for testing materials for wear.

The device comprises a stoliggu 1, a disc contour 3 holder 2, a rotational drive 4 of the wild contour 2 holder 2 fixed on the base 1, a sample holder 5 of samples 6 made with annular grooves 7 with internal walls 8 of resilient material. Inner walls 8 are designed to interact with samples 6..,

The sample holder is made with a cylindrical groove 9, which provides free axial movement of the samples during the test, the cylindrical tube 9 and the annular grooves 7 are filled with hydraulic medium and are connected to the loading unit fixed to the base frame 1 of the node, loading is in the form of a loading cylinder 10, the rod 11. which interacts with the shaft 12. On the shaft 12 is fixed coaxially the holder of the counterpiece and the sample holder. The shaft 12 is freely mounted in the sleeve 13, which is mounted on the rolling bearings in the body of the headstock 14. A stop 15 is fixed on the shaft 12, which contacts the elastic element 16 of the measuring unit (not shown). The end face of the disk counterpiece 3 is made with a bevel about its axis of rotation.

The device works as follows

When the friction unit is loaded with an axial force, the rod 1 1 of the loading cylinder 10 operates on the shaft 12, which progressively moves in the sleeve 13 until the samples 6 contact the counterpiece 3. In this case, an excessive pressure is created in the hydraulic medium of the cylindrical groove 9, which is equally on each sample 6 "When creating pressure in the annular grooves 7, the inner walls 8 deform and clamp the samples 6 on the outer cylindrical surface, resulting in contact of the samples 6 with elastic walls s in

there is a force to resist the movement of the samples in the axial direction. Contrast 3, mounted on hold (Le 2, is rotated

5 driven 4. With this holder 5

Specimens 6, under the influence of friction forces arising at the contact of counterpiece 3 with Specimens 6, tend to rotate. 5 the goal of twisting it is limited by the amount of deflection of the elastic element 16 of the measuring unit, i.e. sample holder 5 does not rotate -. Thus, when the counterpiece 3 rotates due to the presence

15 angle tf. the inclination of the end surface of the holder 2 of the counter-specimen 3 relative to its axis of rotation with a stationary holder 5 of the samples; samples 6 perform a reciprocating 20 movement relative to the holder

5 images from left to right and vice versa on the value of and. For one revolution of counterpiece 3, each sample 6 makes one double move.

25 When moving each sample

6The right force acting on it from the counter-sample 3 is equal to the sum of the force acting on the sample

 from the side of the hydraulic medium of the pro30 point 9, and the resistance to movement of the sample 6 in the axial direction arising from the contact of the sample 6 with the elastic walls 8. When moving each of the samples 6 to the left, the force acting on it from the counterpiece 3 is equal to the difference of the force acting on the sample 6 from the side of the hydraulic medium of the groove 9, and the resistance to movement of the sample 6 in the axial direction, arising from the contact of sample 6 with elastic walls 8. Thus, for one revolution of the counterpiece, the load is on — each of the samples Change is from

45 minimum to maximum value, which achieves the effect of creating variable contact loading of the samples when the mother is tested for wear.

50 Formula of invention

A device for testing materials for wear, containing a frame, a disk counterbrack holder mounted on the base of the drive — the disk controversy rotating 55, the sample holder mounted coaxially with the disk counterbrade holder, the loading unit and the measuring unit.

312459364

I am different now because, with the samples and the cylindrical purpose of simplifying the device, der. which groove, filled with the hydraulic of the samples, is made with an annular medium and providing with its own grooves, filled with hydrobaud axial movement of the samples

in a common environment, the internal walls of the testing process, and the end of the disk of which is made of an elastic counterpiece, is made with a bevel

material and are intended to be mutually relative to its axis of rotation.

Claims (1)

SUMMARY OF THE INVENTION A device for testing materials for wear, comprising a bed, a disk counter-sample holder, a disk counter-rotation drive mounted on a bed, a sample holder mounted coaxially with the disk counter-sample holder, a loading unit and a measuring unit, actions with samples and a cylindrical groove filled with hydraulic medium and providing free axial movement of samples 5 during the test, and the end face of the disk counter-sample is made with a bevel relative to its axis of rotation. characterized in that, in order to simplify the device, the sample holder is made with annular grooves filled with a hydraulic medium, the inner walls of which are made of elastic material and are designed to mutually