SU1696467A1 - Lubricant composition - Google Patents

Abstract

The invention relates to lubricating compositions, in particular, to a lubricating composition that improves the wear resistance of steel-copper alloy friction units. In order to improve the antifriction properties and enhance the antiwear properties, the composition has the following ratio of components, wt%: ester (V-chlorononanoic acid and R-OH aliphatic alcohol. Where R is methyl, n-butyl, n-octyl, 5-30; 2,2,6,6-tetramethyl-4-oxo-N-oxylpiperidine (0.05H), 2; petroleum or synthetic oil up to 100. 2 tab. Yo

Description

The invention relates to lubricating oils on petroleum and synthetic bases and can be used in machine building and instrument making for the manufacture of lubricants that increase the wear resistance of steel-copper alloy friction units due to the effect of wearlessness.

Known lubricant compositions on mineral 1 and synthetic 2 bases, containing complexing additives.

However, the loading characteristics of Pmax of these compositions remain at a level of 30-50 MPa, which prevents their application in heavy loaded friction units at Pmax 50 MPa.

Thus, a composition consisting of vaseline oil and aniline isocresol at the optimum ratio of components is operable at a specific load of not more than 26.9 MPa, and the composition based on polyethylene siloxane liquid PES-S-1 with an additive 1- (tenoyl-2) -3 , 3,3-trifluoroacetone corresponds to a maximum load of 50.8 MPa.

It is also known to improve the lubricating properties of oil bases by introducing esters that are characterized by good lubricating properties, high oxidative stability, in particular pentaerythritol alcohol ester and C5-Cd-Ether 2 fatty acids. For example, a mixture of

O h)

to

about

VI

PFMS polymethylphenylsiloxane fluid (60 wt.%) and Ether 2 (40 wt.%) have a critical load of kgf and a welding load.

 The loading characteristics of such compositions are also not high enough.

Closest to the present invention, there is a lubricant composition on a petroleum or synthetic basis, which ensures the work of the steel-copper alloy friction pairs in the mode of selective transfer, containing 20-30 wt.% Adipic acid ester and aliphatic alcohol C3-Cg and 0, 05-0.5 wt.% 2,2,6,6-tetramethyl-4-oxoxypiperidine 4.

The disadvantages of the known lubricant composition are its low anti-friction and anti-wear properties.

The aim of the invention is to improve the anti-friction properties and increase the anti-wear properties of the lubricant composition.

This goal is achieved by the fact that a lubricant composition based on petroleum or synthetic oil contains 2,2,6,6-tetramethyl-4-oxo-M-oxylpiperidine and ether, co-chloronanoic acid and aliphatic alcohols ROH, where R is methyl, n-Outyl, n-octyl, in the following ratio, wt.%:

The specified ester of w-chlorononanoic acid 5-30

2,2,6,6-Tetramethyl-4-oxo-M-oxylpiperidine 0.05-0.20

Oil or synthetic oil up to 100

The proposed lubricant composition differs from the known one in that it contains as an ester of o-chloronanoic acid and aliphatic alcohol ROH, as well as the indicated ratio of components.

The lubricant composition is prepared on the basis of VM-6 vacuum oil or on the basis of PES-C-1 polyethylsiloxane liquid by mixing the required amount of ether and base. Then, 2,2,6,6-tetramethyl-4-ox-N-oxylpiperidine is introduced with heating to 100 ° C and continuous stirring. After cooling, a clear, ready-to-use oil is obtained.

The compositions of the investigated compositions are given in tabl, 1.

The lubricating properties of the proposed composition of various compositions (Table. Explored on the mechanical friction machine when

sliding speed of 0.7 m / s.

Movable samples are made of OF-10 bronze in the form of a crown, and

the fixed specimens are disks of steel H12F1Sh.

The loading is performed stepwise as the samples are burned in up to the maximum specific load (Ore.), At which friction is provided.

The tests are carried out for 5 hours, after which time the wear of the samples is determined by the weight loss. The intensity of wear in a pair of friction count

according to the well-known formula:

P

where Cg) is the wear of a pair of friction, g; E is the way of training;

S is the friction area.

The test results are shown in table 2.

The data obtained in the study of the antifriction properties of lubricating compositions indicate a significant improvement in the lubricating properties of the compositions in comparison with the base, regardless of its nature.

Thus, this is expressed in an increase in the maximum specific load by almost 10 times for the oil base and almost 3 times for the synthetic while reducing the friction coefficients from 0.030 to 0.006 and from 0.021 to 0.005, respectively.

A comparison of the antifriction characteristics of the proposed lubricant composition with the characteristics of a known petroleum-based composition with dipropyl adipate additive and on a synthetic basis with dioctyl adipate additive indicates a decrease in friction coefficients while simultaneously increasing the wear resistance of a friction pair.

Claims (1)

Invention Formula A lubricant composition based on petroleum or synthetic oil containing an ester and 2,2,6,6-tetramethyl-4-oxo-M-oxylpiperidine, characterized in that, in order to improve anti-friction properties and enhancing anti-wear properties, the composition contains as an ester an ester of o-chloro-nanoic acid and an aliphatic alcohol R-OH, where R is methyl, n-butyl, n-octyl, the following ratio of components, wt.%: The ester of co-chl Orion nova acid specified above 5-30 2,2,6,6-Tetramethyl-4-oxo-M-oxyl-piperidine 0.05-0.2 Oil or synthetic oil up to 100 Components E The content of components, May., In the composition iziiiizii niiiiiiiiizinLiii DL iiL VM-6 vacuum oil 3.95 89.65 69, B ylt, 95 89, L5 69.8, 95 SS.fcS 69.8 Polyethylsiloxane 1idkost1 PES-S-1 --.---- Methyl Ester 63 - chlor30 69.65 69.15 69.6 69.8 nonanoic acid5 10 Butyl ester of n-chlorononanoic acid --- $ 1030 ---- 10Octyl ester of 6 ornonanoic acid ------ 51030--1030 2,2,6,6, -Tetranetyl-yokeo-N-oxylpiperidine -0.050.15 0.20 0.05 0.15 0.20 0.05 0.15 0.20 0.15 0.15 0.14 0.20 Table I 69.65 69.15 69.6 69.8