SU859428A1 - Lubricating liquid - Google Patents

Description

one

The invention relates to lubricant compositions used to reduce wear resistance, reduce the coefficient of friction and the speed of running-in of the friction pairs lubricated by them.

Mineral oil-based lubricating compositions are known, containing additives to improve lubricating properties, such as | Q fatty acids, esters of organic acids and alcohols, and amines and their derivatives 1 ..

A lubricant based on polyethylsiloxanes 2 is also known.

However, the known liquid has insufficient antiwear and anti-friction properties.

The purpose of the invention is to increase the wear resistance and antifriction properties of the lubricant 20.

This goal is achieved by the fact that the lubricant based on polyethylsiloxanes additionally contains benzoic aldehyde and 25 oleic acid in the following ratio of components, wt.%:

Benzoic aldehyde 0.05-4 Oleic acid 0.02-3 Polyethylsiloxanes Up to 100 30

The technology for the manufacture of a lubricant consists in adding benzoic aldehyde and oleic acid to polyistilloxan with constant mixing.

Example 1 A lubricant containing, in wt%, is prepared: benzoic aldehyde 0.5 / oleic acid 0.02 j Polyethylsiloxanes (silicone liquid PES-B-2) to 100.

The use of this lubricant with face friction at a speed of 0.7 m / s, a specific pressure of 3 kgf / cm for 60 minutes of ring samples steel-45-bronze Br АЖ-9-4, having respectively an internal and external diameter of 15 and 18 mm, the mutual overlap ratio is 1, the initial irohvatastnost 0.32-0.63 μm, reduces the total wear compared with their work with lubrication pure PEG-B-2 silicone liquid, 1.8 times, the friction coefficient decreases by 1.2 times ..

In the event of wear and tear, the weight is recorded using the analytical method of measuring 2 cells of the accuracy type LLV-200. The run-in time is estimated by the effect of constant frictional force.

Example 2. Lubricant containing wt.%: Benzoaldehyde 2; oleic acid 1.5; silicone fluid PES-B-2 to 100.

The use of this lubricant in friction of the samples specified in example 1, with the same operating mode of testing, allows reducing the total wear of samples compared to their work in pure PES-B-2 liquid by 3.2 times, the coefficient of friction by 1.8 times and reduce the run-in time for 5 minutes

Example 3. A lubricant containing, in wt.%: Benzoic aldehyde 4 / oleic acid 3, silicone liquid PES-B-2 to 100.

The use of this lubricant in friction of the samples specified in example 1, with the same operating mode of testing, reduces the total wear of the samples, compared to their work in pure PES-B-2 liquid, by 3.7 times, the coefficient of friction by 1, 4 times and reduce the running-in time to 10 minutes.

After all the considered examples, after finishing the tests, pure copper films are observed on the surfaces of the steel and bronze specimens, which is typical of the effect of selective transfer.

With an increase in the amount of benzoic aldehyde in the base fluid PES-B-2 more than 4 wt.% In the presence of oleic acid in the initial period of low coefficients of friction, and then after 30-40 minutes the coefficient of friction increases. With the proposed ratio of components in the lubricant, this does not HAPPEN and during long-term operation of a pair of friction for 8 hours.

The test results of the compositions are summarized in the table.

5.2

0.168

60

2.8 0.135 20 1.6 0.095 5

1.4 (G, 115

ten

It can be seen from the above data that lubricant containing benzoic aldehyde and oleic acid contributes to an increase in wear resistance, a decrease in the coefficient of friction and an increase in the speed of running-in, lubricated by the friction pairs.

Claims (2)

1.Vinogradov N.E. Anti-oil additives. M., Chem, 1972, p. 2. GOST 16480-70 (prototype).