SU1154316A1 - Lubrication composition - Google Patents

Abstract

LUBRICANT COMPOSITION containing base oil, ester and additives, characterized in that, in order to improve the load, anti-friction and anti-wear characteristics, the composition contains 2-hydroxybenzaldodecylamine of the formula and bis

Description

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OO The invention relates to lubricating oils and lubricants based on them and can be used in machine building and instrument making for lubricating steel-steel and steel-copper alloy friction units through the implementation of selective transfer. The lubricant compositions of SRI FOH-3 are known. 1. A lubricant composition containing the base oil or its mixture with adipic acid ester and 2-hydroxy-3-methoxybenzmethylalaminobenzene having high lubricating properties due to the selective transfer mode in steel-alloy copper friction pairs is also known. 2. The disadvantage of lubricating compositions is their narrow scope. They have good lubricating properties of steel-alloy copper copper friction pairs, while steel-steel pairs have insufficient lubricating properties. In addition, a lubricant composition based on base oils with the addition of 20-30% by weight of phthalic acid esters, 2-thiazolylazo; / a-naphthol and bis- (2-thiazolylazo-naphtholate) cobalt 3 is known. However, the lubricant It does not have high enough anti-friction, load and anti-wear properties. The aim of the invention is to improve the anti-friction, stress and anti-wear characteristics of the composition. The goal is achieved by the fact that the lubricant composition containing base oil, ester and additives, as the latter contains 2-hydroxybenzaldodecylamine of the formula CH M- (CH2) d-CH3 (CHg) d -CH where Me is Cu, Ni, Co, and as an ester - dioctyl sebacate or dioctyl phthalate in the following ratio, wt.%: 2-Oxybenzaldodecylamine of the formula I, 0.1-0.5 Bis- {2-hydroxybenzaldodecylamine) metal of the formula II0,1-0,3 Ester 20 -30 Base oil Up to 100 Sebacic and phthalic esters are introduced to improve lubricating properties. and to improve the solubility of the additives. The addition of ether below 20 wt.% Is not sufficient to dissolve the additives, above 30 May / about - does not improve lubrication properties much, but does not lead to an increase in the cost of compositions. For the preparation of compositions, oil oils of various chemical structure and physicochemical properties are used: oil on the basis of ASB-B, industrial oil, vacuum VM-4, instrument MVP, and also synthetic ester-2 (esters of Pentaerythritol and fatty acids of the Ce-C fraction and ), the synthetic basis of the MZS. The oils are mixed with ethers and the additives are dissolved with heating and vigorous stirring. After cooling, a ready-to-eat oil is obtained. Lubricating properties examined on the machine butt friction. Movable specimens with a diameter of 6 mm were made, as were fixed bars of steel 45. The volume of the oil bath was 35–40 cm. The average velocity was 0.8 m / s. Step loading. The test duration is 5 hours. Samples are treated to 8-gO: of a purity class and degreased with ethyl ether and acetone. Fix max.::. the maximum load (.), above which a stable friction mode or selective transfer mode is not realized, and the friction coefficient (f, p). Wear is determined by a gravimetric method based on the difference in weight of the samples before and after testing. The weight wear rate is determined by the formula g / SL, where Jg is the weight loss of the samples; S is the contact area,, L is the path of friction. The data obtained for the compositions under study are shown in the table, where, for comparison, the test data for the lubricant composition, May, are also given. %: 2-thiazolylazo -. (- naphthol 0.2; bis- (2-thiazolylazo-, D-naphtholate) cobalt 0.2; dinonylphthalate 30; industrial - 50 to 100. The maximum effect is achieved only with the joint presence of ether and additives within the indicated concentrations. An additive of formula II in concentrations higher than 0.35 wt.% is insoluble in the composition. Comparison of the results for the proposed compositions, known and base oils indicates a significant improvement in the load, anti-wear and antifriction characteristics. concentration of pr The composition in the composition is practically independent of the nature of the oils. As can be seen from the table, as compared with the base oils, the oils of the proposed lubricant compositions P are higher by a factor of 2-3, and f and J, j are lower by 2-5 and 2-6.5 times, respectively. At the same time, compared with the known composition, which may be

and by the base object, an improvement in lubricating properties is observed: by 20–30% above, and ftp and I, 1 by 30–40%. G. Thus, various oils in their own way can be improved by adding: dioctyl sebacate or dioctyl phthalate, 2-hydroxybenzaldodecnlamine and bis- (2-hydroxybenzaldodecylamine) copper (II), nickel (II) and cobalt (II) when they are present in these concentrates x

 The proposed compositions can be used as motor transmission, industrial oils and lubricants based on them.

Known lubricant composition

Compositions with the addition of bis- (2-hydroxy benzaldodecylamine) and cobalt (C.)

Oil on the basis of DIA-6

Industrial-50

Dioctyl sebacate 20

660 0.040 4.32

280 1,137 31,47

360 0.099 19.96

Synthetic base MZS

Dioctyl sebacate 20

Lioctyl phthalate

Instrument MVP

Dinonyl sebacate 30

Dioctyl phthalate

Compositions with the addition of bis- (2-hydroxybenzaldodecylamine) nickel (I)

Oil based

DioctylASV-6 sebacinat 20

Industrial-50.

Dioctyl sebacate 20

Table continuation

225 0.108 21.48

20 20

20 20

30 40

20 25

0.0 0.10 780 0.035 4.18

0.031 3.49 0.030 3.52

0.10 0.10 800 0.034 4.11

nZLEIZIZZZr Dioctyl phthalate 20 synthetic base DioktilSchSsebatsinat 20 Dioctyl phthalate 20 20 Compositions Instrumentation MVPDinonilsebatsinat adding dodeschshaminata b) copper (II) The oily osnovaDioktil- 20 DIA-6sebatsinat Ind.ustrialnoe-Dioctyl phthalate 20 Dioctyl phthalate 20 20 50Dioktilsebatsinat Basis MZSDioktil- sebacate Dioctyl phthalate 20 20 20 Instrumentation MVPDioktilsebatsinat

Continuation of the table 20 20 20 0.20 0.20 860 0.028 3.42 0.20 0.20 810 0.032 3.91 0.20 0.20 850 0.28 3.40 0.20 0.20 690 0.044 6, 13 - (2-hydroxybenzo0, 20 0.20 770 0.041 5.11 0.10 0.10 810 0.035 3.65 0.20 0.20 790 0.041 5.11 0.10 0.10 830 0.034 3.58 0 , 20 0.20 840 0.032 3.53 0.10 0.10 770 0.038 4.16 0.20 0.20 790 0.036 4, .11 0.10 0.10 820 0.031 3.48 0.20 0.20 830 0.030 3.46 0.20 0.20 670 0.052 7.11

Claims (2)

LUBRICANT COMPOSITION containing a base oil, ester and additives, characterized in that, in order to improve the load, antifriction and anti-wear characteristics, the composition contains, as additives, 2-hydroxybenzal dodecylamine of the formula a OH and bis (2-hydroxybenzal dodecylaminate) of the metal of the general formula α O — ME / 2 CH = N— (CH ₂ ) _AND —CH _3? where Me is Cu, Ni, Co, and as an ester is dioctyl sebacinate or dioctyl phthalate in the following ratio of components, wt.%: 2-hydroxybenzalde dodecylamine of the indicated formula 0.1-0.5 Bis- (2-hydroxybenzalododecylaminate) metal of the specified formula 0.1--0.3 Ester 20-30 Base oil Up to 100>