SU852935A1 - Lubricating liquid - Google Patents

Description

This invention relates to lubricant compositions used to increase wear resistance, reduce friction coefficient and speed when treating friction pairs. Lubricating compositions based on new mineral oil are known, which contain additives for improving lubricating properties, such as fatty acids, esters of organic acids and alcohols, as well as amines and their derivatives. A polyethylene siloxane-based lubricant 2 is also known, which is not sufficiently high anti-friction properties. The aim of the invention is to improve the antiwear and anti-friction properties of the lubricant. The aim is that the lubricant based on polyethylsiloxanes additionally contains benzoic aldehyde and glycerol in the following ratio of components, wt.%: Benzoic aldehyde 0.05-4 Glycerol 0.2. -5 Polyethylsiloxanes Up to 100 A lubricant manufacturing technology consists of adding benzoaldehyde and glycerin to polyethylsiloxanes and mixing the resulting composition. Example 1. Prepare a lubricant composition, wt.%: Benzoic aldehyde 0.05, glycerin 0.2, polyethylsiloxanes (silicone liquid PES-B-2) to 100. Use this lubricant for face friction at a rate specific pressure of 6 kgf / cm within 60 min of ring specimens, steel grade Art. 45 - bronze grade АB АB-9-4 with inner and outer diameters of 15 and 18 mm, respectively, mutual overlap 1, initial roughness 0.32 ... 0.63 µm allows reducing the total wear of samples compared to their work in lubrication - pure silicone fluid PES-B-2 2 times. The coefficient of friction is reduced by 1.5 times. Break-in time is reduced from 50 to 35 minutes. During testing, wear is recorded by the gravimetric method on an analytical balance of 2 cells. type ADV-200.

The running-in time is estimated by establishing the states of friction force.

Results. Tests of lubricants are given in the table.

Example 2. Lubricating composition is prepared, wt.%: Benzoic aldehyde 2, glycerin 2.5, silicone liquid PES-B-2 up to 100

The use of this lubricant in friction of the samples shown in example 1, with the same test operating mode, allows reducing the total wear of the samples compared to their work in pure PES-B-2 silicone liquid, reducing the coefficient of friction in 1, 8 times and reduce the running-in time to 15 minutes.

The test results for the lubricants are given in the table.

Example 3. A lubricant of the composition is prepared, wt%: benzoic aldehyde 4, glycerin 5, silicone liquid PES-B-2 up to 100.

The use of this lubricant in friction of the samples specified in example 1, with the same test operating mode, allows reducing the total wear of the samples compared to their work in pure PES-B-2 liquid by 4 times reducing the friction coefficient by 1.75 times and reducing running time

up to 10 min

The test results for the lubricants are given in the table.

In all the considered examples, at the end of tests, pure copper films are observed on the surfaces of steel and bronze specimens, which is characteristic of the manifestation of the effect of selective transfer.

With an increase in the amount of benzoic aldehyde in the base fluid jj3C-B-2 of more than 4 wt.% In the presence of glycerol, low friction coefficients were observed in the initial period, and then 30-40 minutes after the experiment, the friction coefficient increased sharply, and friction pairs were observed. With the proposed ratio of components in the lubricant, the above friction coefficients were maintained even during long-term operation of the samples in the mode 1 given in example 1 for 8 hours.

From the data in the table, it is known that a lubricating fluid containing benzoic aldehyde and glycerin contributes to an increase in wear resistance, a decrease in the coefficient of friction and an increase in the speed of running-in of the friction pairs lubricated by it.

Claims (2)

1.Vinogradova I.E. Antiwear oils additives. M., Himi, 1972, p. 148. 2. GOST 16480-70 (prototype).