RU2393207C1 - Grease lubricant - Google Patents

Abstract

FIELD: chemistry. ^ SUBSTANCE: invention relates to grease lubricants particularly designed for lubricating friction assemblies of machines and mechanisms working in high load and sliding speed conditions. The lubricant contains the following in wt %: molybdenum disulphide 1-10; thickener 10-15; polyfluorinated zinc dialkyldithiophosphate of general formula {[X(CF2CF2)nCH2O]2P(S)S]}2Zn, where X=H, Cl, F; n=2.3: 1-5; antioxidant 0.3-0.5; petroleum oil - the rest. ^ EFFECT: longer service life of friction assemblies of machines and mechanisms due to improved antifriction and extreme pressure properties of the lubricant, wider field of use. ^ 5 cl, 2 tbl, 7 ex

Description

The invention relates to greases, in particular to greases intended for lubrication of friction units of machines and mechanisms operating under high loads and sliding speeds.

The main purpose of lubrication is to separate hard surfaces moving relative to each other in order to minimize friction and wear. The most commonly used materials for this purpose are oils and greases. The choice of lubricant is determined largely by the particular application.

Greases mainly consist of a liquid lubricant, such as oil, a thickener, and various additives. Base oil can be either natural or artificial. Greases preferably contain from 5 to 20% by weight of a thickener.

One of the main thickeners used in greases are lithium soaps, preferably stearic or 12-hydroxy stearic acids and urea compounds that contain urea functional group (-NHCONH-) in their molecular structure. These compounds typically include mono-, di- or polyureas of urea.

In order to impart certain properties to lubricants (anti-wear, anti-seize, anti-oxidative, anti-corrosion, etc.), various additives in quantities commonly used in this field of application can be included in greases.

Among the wide range of antioxidant, anticorrosive, and anti-wear additives, zinc dialkyldithiophosphates are the most abundant, containing various alkyl radicals and possessing various thermal stability, which are multifunctional additives and exhibit high antioxidant and anti-pitting properties [AM Kuliev Chemistry and technology of additives for oils and fuels , M., Chemistry, 1985]. Dialkyl dithiophosphates are good oxidation inhibitors, but have insufficient anti-seize and anti-friction properties.

To reduce the wear of friction units, molybdenum disulfide is widely known as an additive in lubricants [Solid Lubricant Additives - Effect of Concentration and other Additives on Anti-Wear Performance, Bartz, Wear, 17 (1971), p.421-432].

For example, compositions of greases containing molybdenum disulfide in a base oil environment, metal dithiophosphate and target additives are known [Patent RU No. 2181371, IPC С10М 141/10, 2002; Patent RU No. 2044762, IPC С10М 163/00, 1995].

The use of molybdenum disulfide in combination with zinc dialkyldithio phosphates is also known [Interrelations between Molybdenum Disulfide and Oil Solible Additives, Bartz, NLGI Spokesman, 1989].

Closest to the proposed is a grease containing petroleum oil with a thickener - lithium soap 12-hydroxy stearic acid, molybdenum disulfide, zinc dialkyldithiophosphate, antioxidant and other target additives [Patent RU No. 2030451, IPC С10М 169/04, 1995].

Known compositions of greases have good tribological characteristics, however, they have insufficiently high antifriction and extreme pressure properties.

The technical task of the invention is to increase the extreme pressure and antifriction properties of grease.

The specified technical result is achieved by the fact that the proposed grease contains molybdenum disulfide in a medium of petroleum oil with a thickener and antioxidant, while polyfluorinated zinc dialkyldithiophosphate of the general formula is used instead of metal dithiophosphate

{[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) S]} ₂ Zn, where X = H, Cl, F; n = 2, 3, in the following ratio of components, wt.%:

Molybdenum disulfide 1.0-10.0 Polyfluorinated Zinc Dialkyldithiophosphate 1.0-5.0 Antioxidant 0.3-0.5 Thickener 10.0-15.0 Petroleum oil rest

For the proposed grease using petroleum oils with a pour point of minus 60 to minus 45 ° C and a kinematic viscosity at 50 ° C of 5 to 12 mm ² / s, for example, grades MVP, MS-8, etc.

As a thickener, a polyurea thickener is used [Danilov A.M. Greases based on polyureas, M .: TSNIITENEFTEKHIM, 1995,] or lithium soap of stearic or 12-oxystearic acid.

MoS ₂ molybdenum disulfide is used with Molykote Microsize grades with a particle size of the main part of 0.65-0.75 microns, and finely powdered molybdenum disulfide of other grades can be used.

As an antioxidant additive, for example, diphenylamine - GOST 194-80, phenyl-β-naphthylamine (Naphtham-2) - GOST 39-79 are used. Other similar substances known for these purposes may be used.

Polyfluorinated zinc dialkyldithiophosphate of the general formula {[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) S]} ₂ Zn, where X = H, Cl, F; n = 2, 3, obtained by the interaction of polyfluorinated alcohols with phosphorus pentasulfide and zinc oxide by the reaction:

4X (CF ₂ CF ₂ ) _n CH ₂ OH + P ₂ S ₅ = 2 [X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) SH + H ₂ S

2 [X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) SH + ZnO = {[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) S]} ₂ Zn + H ₂ O.

The claimed composition differs from the known one using polyfluorinated zinc dialkyldithiophosphate of the general formula {[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) S]} ₂ Zn, where X = H, Cl, F; n = 2, 3, and the ratio of the components of the composition with respect to each other. The claimed combination of essential features of the proposed composition was not previously known from the prior art, which allows us to conclude that the criterion of "novelty".

Polyfluorinated zinc dialkyldithiophosphate in combination with a thickener - lithium soap of stearic or 12-hydroxystearic acid or polyurea thickener, petroleum oil and an antioxidant additive - exhibits properties previously unknown to it - antifriction, and in combination with molybdenum disulfide provides high anti-seize and anti-seize properties. In General, the inventive composition provides a manifestation of an unexpectedly high effect in relation to extreme pressure and antifriction properties of the composition.

The synergy of the lubricating action of the molybdenum disulfide system discovered by the inventors of the claimed invention is polyfluorinated zinc dialkyldithiophosphate of the general formula {[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) S]} ₂ Zn, where X = H, Cl, F; n = 2, 3, allows us to conclude that the claimed invention meets the requirement of "inventive step".

The proposed grease can be prepared from known materials according to the generally accepted technology for the preparation of greases.

The inventive grease is prepared in the following way:

Polyfluorinated zinc dialkyldithiophosphate of the general formula {[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) S]} ₂ Zn, where X = H, Cl, F; n = 2, 3, is obtained by the interaction of polyfluorinated alcohols with phosphorus pentasulfide and zinc oxide.

An example of the preparation of polyfluorinated zinc dialkyldithiophosphate {[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) S]} ₂ Zn (where n = 2, X = H).

In a 4-necked flask with a capacity of 2 dm ³ , equipped with a stirrer, reflux condenser, and dropping funnel, 190 g of P ₂ S ₅ (0.86 mol) are charged and 800 g (3.45 mol) of 1.1.5- are added with stirring. trihydrooctafluoropentanol-1 for 1.5 hours, maintaining the reaction temperature of about 60-75 ° C. The mixture is stirred at 110-115 ° C. for about 2 hours while purging with nitrogen until the evolution of H ₂ S ceases and the pentasulfur phosphorus dissolves. After cooling the reaction mass, add 70 g (0.86 mol) of ZnO, with stirring, the mixture is heated to 120 ° C until the zinc oxide is dissolved. The mixture is cooled and 890 g (90%) of the expected product are obtained, which is used to make the compositions of the invention.

An example of the preparation of polyfluorinated zinc dialkyldithiophosphate {[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) S]} ₂ Zn (where n = 3, X = H).

In a 4-necked flask with a capacity of 2 dm ³ , equipped with a stirrer, reflux condenser, and dropping funnel, 15 g of P ₂ S ₅ (0.068 mol) are loaded and 90 g (0.27 mol) of 1,1,7-trihydrodeodecafluoroheptanol is added with stirring 1 for 1.5 hours, maintaining the reaction temperature of about 60-75 ° C. The mixture is stirred at 110-115 ° C. for about 2 hours while purging with nitrogen until the evolution of H ₂ S ceases and the pentasulfur phosphorus dissolves. After cooling the reaction mass, 5.5 g (0.068 mol) of ZnO are added, the mixture is heated to 120 ° C. with stirring until the zinc oxide is dissolved. The mixture is cooled and obtain 92 g (90%) of the target product, which is used for the manufacture of compositions according to the invention.

Compounds {[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) S]} ₂ Zn, where X = Cl, F; n = 2, 3, obtained by a similar method.

For the implementation of the claimed invention, 6 samples were prepared, differing in the percentage of components, namely: composition 1 - with an optimal ratio of components using a polyurea thickener, composition 2 - with an optimal ratio of components using a thickener based on lithium soap, compositions 3 and 6 - with the boundary values of the components using a polyurea thickener, compositions 4 and 5 - at the boundary values of the components using a thickener based on lithium soap.

A lithium soap-based lubricant is obtained by adding stearic or 12-hydroxy stearic acid LiOH · H ₂ O to the oil, heating the mixture to 150 ° C, removing water vapor and heating to 220 ° C until the reaction mass cools.

Then the lubricant is cooled to 130 ° C and finely dispersed powdered molybdenum disulfide and polyfluorinated zinc dialkyldithiophosphate of the general formula {[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) S]} ₂ Zn and diphenylamine or phenyl- are mixed in small portions. β-naphthylamine. The reaction mixture is cooled to ambient temperature with stirring, homogenization is carried out to obtain the final product. The compositions of examples 2, 4 and 5 (according to the invention) are shown in table 1.

Polyurea-based lubricants are prepared by heating 4,4'-diphemylmethanediisocyanate in a base oil to 70 ° C followed by the addition of octadecylamine. Before cooling the mixture to 80 ° C, it is heated to 150 ° C. Then, finely powdered molybdenum disulfide and polyfluorinated zinc dialkyldithiophosphate of the general formula are kneaded in small portions

{[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) S]} ₂ Zn and diphenylamine or phenyl-β-naphthylamine. The reaction mixture is cooled to ambient temperature with stirring, homogenization is carried out to obtain the final product. The compositions of examples 1, 3 and 6 (according to the invention) are shown in table 1.

The comparative sample, Example 7 (control), was modeled in accordance with the usual content of molybdenum disulfide and zinc dialkyldithiophosphate [Interrelations between Molybdenum Disulfide and Oil Solible Additives, Bartz, NLGI Spokesman, 1989]. In the comparative lubricant (control example), zinc dialkyldithiophosphate (DF-11) was used, which is a 50% solution of zinc dialkyldithiophosphate obtained from isobutyl and 2-ethylhexyl alcohols in mineral oil, GOST 24216-80. The lubricant according to example No. 7 was prepared similarly to the compositions according to examples 2, 4 and 5.

Each grease composition (examples 1-7) was subjected to tests on a SMT-1 friction machine according to the shaft-bushing scheme. The 40X shaft is crude, length 1 = 0.030 m, D _bunks = 0.0356 m. The 20XH3A bush is red-hot, 1 = 0.025 m long, D _ext = 0.0360 m, HRc 32. The shaft speed is 300 per minute. The pair was loaded stepwise every 500 N with the measurement of the friction moment after its stabilization. For each composition of the inventive grease, the following indicators were determined:

- load of badass;

- average coefficient of friction.

The test results of the inventive greases for the compositions of examples 1-7 are shown in table 2.

table 2 The results of the tests of samples of greases in comparison with a control example Quality indicators Samples one 2 3 four 5 6 7 Extreme pressure properties Bullet load, N 4000 4100 3600 3550 4300 4350 3000 Antifriction properties Average coefficient of friction 0,084 0,086 0,089 0,089 0,078 0,074 0.11

Analysis of the results of the tests allows us to draw the following conclusions: in all examples according to the invention (examples 1-6), the replacement of zinc dialkyldithiophosphate with its polyfluorinated analogue of the general formula

{[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) S]} ₂ Zn, where X = H, Cl, F; n = 2, 3, in combination with molybdenum disulfide, leads to a significant decrease in the coefficient of friction and an increase in the load of the scuff and significantly exceeds the known lubricant in tribological characteristics;

the proposed lubricant has higher antifriction and extreme pressure characteristics, which is confirmed by the test results on the installation of SMT-1 at high load. The inventive lubricant has high tribological properties, which leads to the expansion of the scope and increase the service life of the friction units of machines and mechanisms.

Table 1 Grease Compositions Name of components Examples of the invention, wt.% Control, wt.% one 2 3 four 5 6 7 1. Antioxidant - diphenylamine 0.4 - 0.3 - 0.5 - 0.5 -Phenyl-β-naphthylamine - 0.4 - 0.3 - 0.5 - 2. Molybdenum disulfide 4.0 4.0 1,0 1,0 10.0 10.0 4.0 3. Thickener, in particular: 12.0 12.0 15.0 15.0 10.0 10.0 12.0 - lithium soap of stearic acid - - - - + - - 12-oxystearic acid lithium soap - + - + - - + polyurea + - + - - + - 4. Polyfluorinated zinc dialkyldithiophosphate of the general formula {[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S) S]} ₂ Zn, in particular: 2.0 2.0 5,0 5,0 1,0 1,0 - X = H; n = 2 - - + - - - - X = H; n = 3 - - - + - - - X is Cl; n = 2 + - - - - - - X is Cl; n = 3 - + - - - - - X = F; n = 2 - - - - + - - X = F; n = 3 - - - - - + - 5. Zinc dialkyldithiophosphate DF-11 - - - - - - 1,0 Petroleum oil 81.60 81.60 78.70 78.70 78.50 78.50 82.5 TOTAL, wt.%: 100.00 100.00 100.00 100.00 100.00 100.00 100.00

Claims (5)

1. A grease containing molybdenum disulfide, petroleum oil, a thickener, an antioxidant and zinc dialkyldithiophosphate, characterized in that the latter contains polyfluorinated zinc dialkyldithiophosphate of the general formula {[X (CF ₂ CF ₂ ) _n CH ₂ O] ₂ P (S ) S]} ₂ Zn, where X is H, Cl, F; n = 2, 3, in the following ratio of components, wt.%:
Molybdenum disulfide 1.0-10.0 Specified polyfluorinated dialkyldithiophosphate zinc 1.0-5.0 Antioxidant 0.3-0.5 Thickener 10.0-15.0 Petroleum oil rest 2. Grease according to claim 1, characterized in that diphenylamine is used as an antioxidant. 3. Grease according to claim 1, characterized in that phenyl-β-naphthylamine is used as an antioxidant. 4. Grease according to claim 1, characterized in that lithium soap of stearic or 12-hydroxystearic acid is used as a thickener. 5. Grease according to claim 1, characterized in that a polyurea thickener is used as a thickener.