SU810774A1 - Lubricating composition - Google Patents

Description

For the preparation of compositions, petroleum or synthetic oils of various chemical and physicochemical properties are used: vasels, industrial oil-50, industrial-20, instrument FEP, vacuum VM-4, ether-2 (esters of pentaerythritol and fatty acids, o liquid 132-25. (polyethylsiloxane Oils are mixed with esters of tartaric acid and 5-methyl-3 oxyphenyl) -2,4-oxadiazole in the above proportions when heated to 100-110 ° C and vigorous stirring. After cooling, a malo, ready to eat. e properties are examined on a face friction machine, moving specimens with a diameter of 5 mm are made of bronze Бр.Оф-6-0,25, fixed from steel 45. The volume of an oil bath is 35-40 cm. The average sliding speed is 0.8 m / s, loading stepwise test duration of 5 hours. Samples are processed to grade 8 h: exhausts and degreased with diethyl ether and acetone.The maximum load is recorded, and the load above which the steady state of friction or selective transfer is not realized) and the torque, by which the coefficient of friction is calculated. Wear is determined by a gravimetric method based on the difference between the weight of the samples before and after 5 hours of testing. The weighting intensity of wear is determined by the form: j -c / $ «.u, where q is the weight loss of the samples, is the contact area, L is the path of friction. The data obtained for the studied compositions is given in the table. Here, for comparison, the corresponding data on the lubricant composition NIIFOH-4 (composition 1 - vaseline oil + 0.05 wt.% 1- (2-pyrididazo) -2-b-naphthol composition 2-polyethylsiloxane liquid + 0.05 weight. % 1- (2-pyridylazo) -2-naphthol).

6.32 10.12

14.34

14.21

3.71

2.18

2.36

2.48

2.16

12.34

1.34

0.96

1.21

0.92

0.91

11.31

3.12

2.16

Comparison of the results for the lubricant compositions according to the invention and the composition of the Scientific Research Institute of Hydrometeorology and Epidemiology-4 testimony about the mean spruce of the NN improved the load antiwear and anti-friction characteristics. The characteristics indicated here do not depend on the concentration of 5-methyl-3- (0-hydroxyphenyl) -2,4-oxadiazole in an oil-ether mixture. Concentrations, corresponding to the maximum effectiveness of the additive, are practically independent of the nature of the oil and lie in the range of 0.1-0.4% v / v. The maximum load of the composition according to the invention is increased 1.3-1.6 times with the same, and in many cases, lower coefficient of friction compared with the data on the composition of NIIFOH-4.

Table continuation

The index also reduces the weight wear rate by 1.2–2 times for bronze samples by 2–8 times for steel samples (see table).

Thus, it follows from the results given in the table that the lubricating properties of various inherent oils can be improved by the joint addition of tartaric esters and 5-methyl-3 (-0-hydroxyphenyl) -2.4 oxadiazole.

Claims (4)

1. A lubricant composition containing a base oil and an additive, characterized in that, in order to improve the antiwear and anti-friction properties of the composition. As an additive, it contains a tartaric acid ester of the formula. (SNONSOPN2i-c) c11 where,:. and 5-methyl-3- (0-hydroxyphenyl) -2,4-oxadiazole of the formula in the following ratio tov, wt.%: Tartaric acid ester specified formula 5-Methyl-3- (0-hydroxyphenyl -2, 4-oxadiazole of the indicated formula .0.1-0.4 Base oilErest 2. The lubricating composition according to claim 1, characterized in that it contains petroleum or synthetic oil as a base oil. Sources of information taken into account in the examination 1.Garkunov D.N. and others. Selective transfer in the nodes of friction. M., Transport, 1969, p. 31-33. 2. USSR author's certificate number 606877, cl. C 10 M 3/44, 1976. 3. USSR author's certificate number 618403, cl. C 10 M 1/32, 1976. 4. USSR author's certificate No. 652204, cl. C 10 M 1/32, 1977 (prototype,