SU1388770A1 - Apparatus for determining friction coefficient - Google Patents

Abstract

The invention relates to devices for evaluating the tribological properties of bearing materials. The purpose of the invention is to improve the accuracy of estimation of the coefficient of friction by stabilizing the sliding speed when a pair of friction is operating. The sample is mounted on a slider. The counterbolt is installed in the ring 6, With the help of generators, the initial frequencies f and f of the oscillations of the strings 8 are set. The drive 3 is switched on. The ring 6, under the influence of the friction force between the sample and the contra-ridge, stretches one of the strings 8 and weakens the tension f, c with the girlfriend. When f is equal, the frequency meter records the frequency + 4f 2 “The df, and if-2 values. correspond to measurements of the frequencies of vibrations of the strings recorded by the mixer. The magnitude of the measured friction force is determined by the registered uf. The coefficient of friction is calculated on the strength of friction and normal load, 3 Il. SL

Description

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The invention relates to mechanical engineering and can be used to assess the tribological properties of bearing materials.

The aim of the invention is to improve the accuracy of determining the coefficient of friction due to the stabilization of the slip speed during operation of the friction pair,

Figo schematically shows the proposed device, top view; in FIG. 2 a section A-A in FIG. 3 is a block diagram of the device as a whole.

The device comprises a base 1, a slider 2, a drive 3 of the reciprocating movement of the slider 2, a coitraction holder consisting of a bracket 4, a pivot arm 5, a radial-risk ring 6 7, two strings 8, a string tensioning mechanism 9, vibration exciters and receivers 10 oscillations of strings, and a recording apparatus, including generators P and 12 oscillations, a mixer 13, a filter 14 low frequencies and a frequency counter 15o

The device works as follows

Sample 16 is fixed on slider 2, and counterbrack 17 is installed in ring 6c. Using tension mechanism 9, set the required initial oscillation frequency f and f of generators 11 and 12 and turn on drive 3 of reciprocating movement of slider 2. 16 and the counterpiece 17, the ring 6 interacts with the strings B. In this case, the tension of one string increases, and the other decreases by the amount of the measured friction force

The oscillation frequency of one string increases by df ,, and the other decreases by df.

At the output of the mixer 13, the difference frequency,, + / fJIf, - ufj, appears proportional to the measured frictional force.

If f, fj, then af df, t4f. After passing through the low frequency filter 14, the signal with frequency / I f goes to the IS frequency meter. To determine the friction coefficient, the drive 3 is supplied with a slowly increasing supply voltage, and at the time of the shift of the counterpiece 17, the value of the friction rest force is determined, which is determined by the frequency af

The application of the proposed device eliminates the jump-like movement of the contra-sample 17 relative to the sample 16, which improves the accuracy of determining the coefficient of friction, and the presence of radial scratches 7 on the ring 6 makes it possible to rotate the counter-sampler 17 by a given angle relative to the direction of movement of the slide 2 i.e. to investigate the influence of anisotropy of the materials under study during friction

Claims (1)

Invention Formula A device for determining the friction coefficient, comprising a base, a slider disposed on it, intended for fastening a sample, driving a reciprocating movement of the slider and a counter-sample holder, which is different in that, in order to increase accuracy by stabilizing the sliding speed when the friction pair is operated it is provided with a ring fixed on the counter-sample holder, the axis of rotation of which is perpendicular to the axis of the slide, arranged parallel to the axis of the slide by two strings, one ends of which are opposite Replicas to the outer cylindrical surface of the ring, and others to the base, the tensioning mechanism of the strings and two pairs of vibration exciters and receivers of vibration of the strings. t ///// 7 //// ///////////. FIG. 1388770 Aa P / 6 /BUT t / 7 //// ////////////