SU1305574A1 - Device for friction testing of solid materials and liquids - Google Patents

Abstract

The invention relates to the testing of materials and fluids for friction and wear under hydrostatic pressure. The aim of the invention is to reduce the laboriousness of the test by simplifying the construction and at the same time. conducting model and field tests. The friction unit, consisting of sample 5 and counterpiece 6, is placed in the injection cavity 13 of the pump 2. With the help of mechanism 7, the friction unit is loaded. The fluid pressure is created by the throttle 9, the temperature mode by using the heat exchanger 10. The contacts of the plates 16 of the pump 2 and sample 5, respectively, with electrically insulated stator 14 and the holder 4 of the counterpiece 6 are connected to the unit for comparing the parameters of the pump 2 and the friction unit. During the test, the wear of sample 5, counterpiece 6, plate 16, as well as the change in the electrical resistances of these contacts are recorded. 1 il. 25 g. L. CO O ate cd H 4

Description

The invention relates to the testing of materials and liquids, in particular to the testing of materials for wear under hydrostatic pressure conditions and anti-wear properties of liquids.

The purpose of the invention is to reduce the labor intensity of testing by simplifying the design of the device and simultaneously carrying out model and bench tests.

The drawing shows a device for testing materials and liquids.

The device comprises a base 1, a lamellar pump 2, holders 3 and 4 of sample 5 of material and counter piece 6, forming a friction unit, loading mechanism 7, drive (not shown) of holder 3 rotation. The device is equipped with throttle 9 and thermal compensator 10 installed in pump body 8 mounted on the cover 11 of the pump 2 by the heat exchanger 12 on the side opposite to the injection cavity 13, with a unit for comparing the parameters of the friction of the pump 2 and the friction unit. The stator 14 of the pump 2 and the holder 4 is electrically insulated from the device. On the holder 3, the rotor 15 of the pump 2 is fixed, the plates 16. The sample 5 is fixed on the holder with the help of a disk 17, keys 18, washers 19 and nuts 20 and is made in the form of a ring with a fit on a conical surface. Balls are used as counterpiece 6. The loading mechanism 7 comprises a spring 21, a piston 22 and a screw 23. Through the valve 24, the pump cavity 13 is filled with fluid. Through the opening 25, air is removed from the system. To register the parameters of the pump friction and the friction unit, strain gauges (not shown) are glued on the holder 3 in the appropriate places. Through the opening 26, the strain gauges are connected to the comparison unit. As the latter, for example, a measuring bridge is used, the shoulders of which include the contact of the stator 14 with the plate 16 and sample 5 with the counter piece 6.

The device works as follows.

, | From the pump 2 remove the cover 11 (together with the heat exchanger 12). The holders 4 are removed from the hinge 11, the counterblocks 6 are fastened in them and the

them in cover 11 17 sample 5 and

five

0

five

0

five

A disk 11 is fixed on the disk and the heat exchanger 12 is mounted on the pump 8 housing 8. Through the valve 24, the system is filled with liquid. The air is then removed through the opening 25, which closes after the shut-off of the supply of working fluid. The drive (not shown) of the shaft 3 is turned on. When a certain temperature condition is maintained, supported by the heat exchanger 12, the throttle 9 is set to the required fluid pressure, and the screw 23 is the required contact pressure between sample 5 and the counter piece 6. The equilibrium block is compared to the measuring bridge, V During the test, the electrical resistance of the contacts of the rubbing stator 14 with the plates 16 of the pump 2 and of the counter piece 6 with the sample 5 of the friction unit change.

After completion of the test, the wear of the test material and the anti-wear properties of the fluid are evaluated by the change in mass or linear size of the plates 16, by the diameter of the spot of wear on the counter piece 6 or the width of the wear track of the sample ring 11. By changing the electrical resistances of the contacts, it is concluded pump 2 and friction unit.

Claims (1)

Invention Formula A device for testing solid materials and friction fluids containing a base, installed On it, a lamellar pump, material sample holders and a counter piece, forming a friction unit, the latter loading mechanism and a sample sample rotation drive, differing in the fact that, in order to reduce the labor intensity of the test, it is equipped with a throttle and thermal compensator mounted on the pump housing. pump cover from the side opposite to the discharge cavity, the heat exchanger and the unit for comparing the parameters of the friction of the pump and the friction unit, the loading mechanism and the counter piece are fixed to The pump in its discharge cavity, the stator of the pump and the holder of the counter piece are electrically insulated, and the sample holder is attached to the pump shaft.