SU1415155A1 - Method of determining friction properties of material contact - Google Patents

Abstract

The invention can be used to study the frictional properties of materials. The aim of the invention is to improve the accuracy by obtaining quantitative estimates of the frictional properties of the contact. Preliminary friction tests are carried out, during which the parameters а and FO are found of the linear regression dependence of the friction force F on the magnitude of the flow of acoustic energy from the contact area. With the help of the obtained dependence, the further tests determine the force of friction, without resorting to the determination of the system of external forces acting on the contact. 1 il.

Description

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The invention relates to the field of tribology and can be used to study the frictional properties of materials, in particular soils.

The purpose of the invention is to improve the accuracy by obtaining quantitative evaluation of the: friction characteristics of the contact.

The drawing shows the implementation of the method.

The method is carried out as follows.

The test pair of friction 1 is subjected to the action of a system of certain forces (for example, four forces) and the counterpart of its component is carried out over the area of contact 2.

By specifying the friction force (for example, changing the load Fi), the corresponding value S of the acoustic energy flux from the contact area is measured and using the regression analysis, a friction force F regression line is generated by S

F aS + Fo, (1)

where a and fo are contact parameters determined on the basis of experimental data. For this purpose, piezoelectric sensors 3 and 4, respectively, of pressure P and kinematic acceleration co and strain gauge 5 of friction force, are connected to the studied friction pair. The signal from sensor 3, the path through the path /, after amplification by the preamplifier 6 and the selective amplifier 7 enters an electronic power meter 8. The signal from sensor 4, the path through path II, after amplification by the preamplifier 9, is integrated by the integrator 10, the output of which generates a signal proportional to the speed of material particles in an acoustic wave, amplification by a selective amplifier 11 enters an electronic wattmeter 8, in which by its values and values of a signal entering the electronic wattmeter 8 from the side Act 1, a signal is generated that is proportional to the magnitude of the flow of acoustic energy. After amplification by amplifier 12, this signal is sent to the oscilloscope 13. The signal from sensor 5, the passage through path III through the bridge strain gauge unit 14, is sent to the oscilloscope 13, which is mapped to the signal fed to the oscilloscope 13 from the amplifier 12.

The parameters found make it possible to determine, by further tests, by measuring the flow of acoustic energy,

According to dependence (1), the value of friction force, did not resort to the definition of a system of external forces.

In order to simplify the use of the method for rolling friction or rolling friction, preliminary friction tests are carried out, during which for this contact the parameters b and Mo are found to linearly regress the dependence of the moment of friction force M on the flow S of acoustic energy and determine the moment of friction force from dependencies

M bS + Mn

(2)

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taking into account which the frictional properties of the contact of materials are determined, without resorting to the determination of the system of external forces.

In order to simplify the use of the method in the case of conducting for this contact common preliminary friction tests, both dependences (1) and (2) are used together, taking into account the frictional properties of the contact of materials, without having used the definition of the system of external forces.

The use of the proposed method makes it possible to effectively determine the frictional properties of the contact, in particular, when determining the system of forces acting on the contact is difficult or impossible,

Claims (1)

Invention Formula The method of determining the frictional properties of contact materials, which consists in carrying out a friction test of the materials under study and measuring the parameters of acoustic radiation from the contact zone, which are judged on its frictional properties, characterized in that, in order to improve accuracy by obtaining quantitative estimates of the frictional properties of the contact, as a parameter of acoustic radiation, determine the magnitude of the acoustic energy flux, carry out preliminary tests for friction, during which of contacts are parameters and t FO linear regressive frictional force depending on the flow S of acoustic energy and determining the friction force F depending on  + Fo, on the basis of which the frictional contact properties of the materials are determined.