SU1652807A1 - Device for measuring physical and mechanical parameters of nonmagnetic coatings on ferromagnetic bases - Google Patents

Abstract

The invention relates to a measurement technique and can be used for complex quality control of a surface layer and prediction of wear resistance of bone coatings. The aim of the invention is to improve the accuracy of measuring the wear rate of non-magnetic coatings by taking into account the influence of the anisotropy of the surface physicomechanical properties of the material. When the body 1 is placed on the surface of the material being monitored, the permanent magnet 2 in the holder 3 is attracted to the ferromagnetic base material by the force R. Increasing the load applied to the lever 5, the force of the magnet from the controlled surface is determined by the indicator 6. Similarly, applying a force to the lever 9. determine the shear force F. The force F is measured several times, turning the body around its axis at an angle a. From the results of the measurements, Fmax and Fmn are calculated, which determine the anisotropy of the properties of the test surface E of various industrial processes. 1 il. - WITH

Description

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ABOUT

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The invention relates to a measurement technique and can be used for complex quality control of the surface layer and prediction of wear resistance of coatings.

The aim of the invention is to improve the accuracy of measuring the wear rate of non-magnetic coatings by taking into account the effect of the anisotropy of the surface physicomechanical properties of the material.

The design of the device is shown in the drawing.

The device comprises a housing 1 in which a permanent magnet 2 is housed, enclosed in a casing 3. A permanent magnet 2 is connected via a spring 4 to the lever 5 for moving the magnet in a vertical plane. The lever 5 rests on the rod of the dial indicator 6.

The device also contains a lever system that includes levers 8 and 9 connected to a cable. 7 connected by a spring of 10 T ha 7 connects the holder 3 of a permanent magnet.

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2 with a lever 8. A lever indicator rod 11 rests against lever 9.

The device works as follows.

Place the housing 1 on the surface of the coating to be controlled. Magnet 2 in casing 3 is attracted to a ferromagnetic / base material (not shown in the drawing) with a force P, the value of which depends on the thickness of the coating, the amount of waviness and roughness, the degree of work-hardening, etc. Gradually increasing the load applied to the lever 5, the pull-off force P is determined by the indicator 6. Then, gradually increasing the load applied to the lever 9, the shear force F is measured by the indicator 11. The shear force F of the magnet is measured several times, turning body 1 around the vertical axis at some angle a. The number of measurements and the angle α are chosen based on the required measurement accuracy. Based on the measurement results, the maximum Fmax and minimum Fmin shear forces are determined. The greater the difference between them, the higher the anisotropy of the physical and mechanical properties of the surface. A relative measure of the degree of anisotropy is

Fmax Fmln

but

Fmln

The effect of the anisotropy of the physicomechanical properties of the surface on the wear rate can be either positive or negative, depending on the direction of movement of the rubbing surfaces and the direction of anisotropy of the physicomechanical properties. When predicting the wear rate and, consequently, the guaranteed life of the working parts, it is most important to take into account the adverse effects of anisotropy, which can lead to increased wear and reduced life of the part or unit.

compared to the calculated. Therefore, when predicting the wear rate, the result of measuring the magnet pullout force, P, is refined depending on the relative anisotropy value a:

P1-P- (1-a) P- (1- -f ™ xnfn n)

g mm

Claims (1)

Invention Formula A device for measuring the physicomechanical parameters of non-magnetic coatings on ferromagnetic bases, comprising a housing, a permanent magnet contained therein, a lever for moving the magnet in a vertical plane, associated with a permanent magnet by a spring, and a dial indicator kinematically associated with the lever, distinguishing - in order to increase accuracy measuring the wear rate of non-magnetic coatings, it is equipped with a lever system for moving the magnet in the horizontal plane associated with the magnet by means of a spring, and the second pointer indicator, kinematically connected with the lever system. lei i IP v / CM, 3 tt and OHHrtbx itrodi- .1 rr -b PB.it CsESI - tlu til G J iaiM.-JOX OJOh TBUHfr j,, 1 / jilf 1  f, f Ke. / ij /, r jeiHoJCJo; // I7odx3j HI. im i j h jiQ eJjL9 | j ijj h wide