SU1420458A1 - Apparatus for wear testing of materials - Google Patents

Abstract

This invention relates to the friction and wear test of composite polymeric materials. The goal is to improve the accuracy of wear measurement by additionally loading the emitter with a force equivalent to the force applied to the test specimen. Based on I, a rotational drive 4 is mounted. The loading unit 7 is connected with the sample holder 6. The linear wear sensor 8 is connected at one end to the rod 15, pressed by the clutch 16, and the other end to the holder 10 of the simulator 11. When the counterpiece 3 rotates, its radial runout occurs. The presence of frictional coupling of the rod 15 with the sample holder 6 eliminates the effect of this beat on the readings of the linear wear sensor 8. Using the holder 10 of the simulator 11, the same conditions for movement during thermal expansion are created. 1 il.

Description

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The invention relates to a testing technique and can be used to determine the tribotechnical properties of composite polymeric materials during friction and wear.

The purpose of the invention is to improve the accuracy of wear measurement by additionally loading the simulator with a force equivalent to the force applied to the test sample.

; The drawing shows a diagram of the device.

A: The device comprises a base 1, a co 2 1} holder, 3 a drive, a rotary holder 4 rotation relative to sample 5, a sample holder 6 and a load assembly 7, a linear wear sensor 8 with an elastic element 9, a sample simulator 11 holder 10, a load assembly 12 simulator, the clamp 13 simulator to the sample 5, the bracket 14, the rod 15, the friction clutch 16 and the recorder 17, connected to the sensor linear wear.

The device works as follows.

The actuator 4 drives the counterbeater 3 into rotation. Node 7 loads the sample 5. Node 12 carries the same load on the simulator 11, while the simulator II rests on crown 14. As a result of the frictional heating of the sample 5, the same uv occurs in friction against the rotating counterpiece 3, P1e linear dimensions of sample 5 and simulator 11 pressed against it. This causes the sample sample holder 6 and simulator 10 to move in the same way. The rod 15 rests on the simulator holder 10 and at the same time is connected to the sample holder 6 by means of friction 16 . Consequently, the rod 15 must move verx x by the same amount. As a result of friction between sample 5 and counterblade 3, they are worn out, which is manifested in the linear expansion of their linear dimensions, therefore the sample holder 6 is shifted shorter than the simulator holder 10. This leads to the fact that the holder 10 of the simulator moves the rod-15 faster than the holder 6 of the sample, 1 medicine, of which rod 15 starts with / km,:, ynpyi HH element 9 of sensor 8,

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attached to the sample holder 6, by the amount of linear wear of the sample 5 and counterpiece 3, which fixes the recorder 17. During rotation of counterpiece 3, its radial beating usually occurs, caused by manufacturing inaccuracies. The presence of frictional coupling of the rod 15 with the sample holder 6 eliminates the effect of this beat on the readings of the linear wear sensor 8. During the first revolution of the counterbeach 3, the rod 15 moves by the amount of its radial beating due to the fact that sample 5 is displaced by the same distance, and simulator 11 rests on the bracket 14. The force on the friction clutch 16 is chosen so that it has more force to compress the elastic element 9 sensors 8. The pressing force of the simulator 11 to sample 5 should be MeHbHje, than the load on the simulator and the sample during the tests. The holder 10 of the simulator 11 for the purpose of creating the same conditions for movement during thermal expansion of the simulator and the sample is connected by means of a hinge with the base M. Identical to the sample holder.

Claims (1)

Invention Formula A device for testing materials for wear, comprising a base, a rotation drive mounted on it, a kontrically connected counter sample holder, a loading unit, a sample holder connected to its bottom, a rigid wear sensor fixedly attached to the sample holder Fifth with a crown base and a sample simulator with a clamp mounted on it, characterized by those that, in order to improve the accuracy of measurement of ioca, it is equipped with a simulator holder, a cleaning device, and a linked to a simulator and a base mounted on the base, mounted in the sample holder with the ability to move relative to it and connected at one end to the simulator holder, and the other with a linear wear sensor, and a friction connected with the sample holder and the side surface of the rod .