RU2186834C1 - Metal-cladding addition agent to lubricant composite - Google Patents

Abstract

FIELD: lubricants. SUBSTANCE: addition agent comprises, wt.%: univalent copper salt of oleic acid and/or naphthenic acid and/or saturated acid of -C₆-C₁₇-fraction, 1-20; bivalent copper salt of oleic and/or naphthenic and/or saturated acid of -C₆-C₁₇-fraction, 1-20; oleic acid and/or naphthenic acid and/or saturated acid of -C₆-C₁₇-fraction, 10-60; water, 0.001-0.05; mineral oil, up to 100. Said addition agent is used for decrease of abrasion of rubbing surfaces of machine and mechanism members. EFFECT: decreased friction coefficient in wide range of friction and loading pairs, enhanced resistance of addition agent to separating. 16 tbl

Description

 The invention relates to compositions of additives for lubricating compositions and can be widely used to reduce wear of the rubbing surfaces of machine parts and mechanisms.

 Known metalloplastic additive to lubricating oils containing, by weight. %: monovalent copper oleate (25-60), magnesium oleate (341-67), lanthanide oleate (4-39) and oleic acid (up to 100) (a.s. 1807074 A1, C 10 M 129/40, USSR, 1989).

 Known metalloplastic additive to lubricating oils containing, by weight. %: copper oleate (20-50), magnesium oleate (20-45) and oleic acid (up to 100) (a.s. 1785263 A1, C 10 M 129/40, USSR, 1989).

 Known metalloplastic additive to lubricating oils containing, by weight. %: monovalent copper oleate (25-60), magnesium oleate (31-67), yttrium oleate (5-41) and oleic acid (up to 100) (a.s. 1721078 A1, C 10 M 129/40, USSR, 1989).

 Known metalloplastic additive to lubricating oils containing, by weight. %: monovalent copper oleate (25-60), magnesium oleate (31-66), yttrium oleate (2-37), lanthanide oleate (4-39) and oleic acid (up to 100) (a.s. 1721077 A1, C 10 M 129/40, USSR, 1989).

 Also known metal-cladding additive for lubricating compositions containing a salt of a fatty acid, in particular oleate of monovalent copper and organic acid, in particular oleic acid (and.with. 859425, C 10 M 129/40, USSR, 1979). The known technical solution, as the closest in technical essence and the achieved technical result to the claimed technical solution, is presented by the applicant applicants as a prototype.

 A disadvantage of the known technical solution is that it has a limited scope for the protection of rubbing surfaces in a wide range of loads, as well as low stability of the additive to delamination.

This is due to the following circumstances. In the case where the additive contains monovalent copper oleate and oleic acid, then in the friction zone
Fractions C ₆ -C ₁₇ - 1 - 20
Oleic and / or naphthenic and / or fatty acids of the fraction C ₆ -C ₁₇ - 10 - 60
Water - 0.001 - 0.05
Mineral oil - Up to 100
A comparative analysis of the inventive metal-cladding additives for lubricating compositions with the prototype shows that the claimed object has common features with the prototype:
- fatty acid salt;
- organic acid.

The inventive metal-cladding additive for lubricating compositions differs from the prototype by new features:
- additionally contains water and mineral oil;
- as a salt of a fatty acid contains a mixture of monovalent and divalent copper oleate, oleic, and / or naphthenic, and / or fatty acid fraction C ₆ -C ₁₇ ;
- as an organic acid contains oleic, and / or naphthenic, and / or fatty acid fractions With ₆ -C ₁₇ ;
- the following ratio of components, wt.%:
Monovalent copper salt of oleic, and / or naphthenic, and / or fatty acid fraction C ₆ -C ₁₇ - 1 - 20
The salt of divalent copper of oleic, and / or naphthenic, and / or fatty acid fraction C ₆ -C ₁₇ - 1 - 20
Oleic and / or naphthenic and / or fatty acids of the fraction C ₆ -C ₁₇ - 10 - 60
Water - 0.001 - 0.05
Mineral oil - Up to 100
From the above list of features of the inventive metal-cladding additives for lubricating compositions and the achievement of the task it is clearly seen that the claimed technical solution is a new combination of features, as a combination of known and new features, providing a new technical result, unknown at the filing date of the application. A new technical result that can be obtained by carrying out the invention is to expand the scope of the inventive metal-cladding additives for lubricating compositions in a wide range of loads and materials of rubbing pairs, as well as increasing the resistance of the additive to delamination.

 Metal plating additive for lubricating compositions is industrially applicable, because can be obtained industrially and used in construction, industry, agriculture and other sectors of the economy where machines and mechanisms are used.

 The technical solution of the proposed facility meets the criterion of "novelty", because it is unknown from the prior art on the date of application. Not known from the prior art, the set of essential features of the claimed technical solution and their impact on obtaining the desired technical result.

 The technical solution of the claimed object meets the criterion of "inventive step", because no solutions having features matching their distinctive features have been identified, and the influence of the distinctive features on the resulting technical result is not known.

 The choice of certain components and their ratio is determined by the quality of the obtained additive and the solution of the problem. The above essential features of the claimed invention are confirmed by studies. The research results are shown in tables 1-16.

 A mixture of salts of organic acids was formed from salts of the three above acids in equal proportions and in arbitrary proportions. In the table. Figure 4 shows the parameters as for the “Mixtures of Organic Acids”, since the studied parameters are the same for all mixtures.

 Studies of metal-cladding additives to lubricating compositions (hereinafter additives) were carried out on a SMC-2 friction machine with special devices for working in the studied media at a speed of 2 m / s (960 rpm). The temperature in the friction zone and the friction coefficient for various friction pairs were determined under various loads. The results are shown in tables 5 to 16. The formulation of the investigated additives are shown in tables 1-4. From the above tables it is seen that the most effective additives are additives 2-8. When the content of the components changes below or above the permissible limits, an abrupt increase in the coefficient of friction and temperature in the friction zone occurs. The use of the proposed additive can reduce the friction coefficient by more than 50% in a wide range of friction pairs and loads, which can significantly increase the life of friction pairs. The additive can be used in various lubricating compositions for the lubrication of rubbing pairs of machines and mechanisms.

 Studies on the analysis of additive separation showed that additives with a formulation of 2-8 do not exfoliate before 12 months, which is an acceptable period and fits into the required guaranteed periods of use of additives.

 Thus, the claimed technical solution "Metal plating additive to lubricating compositions" ensures the achievement of the task and a new technical result.

Claims (1)

A metal-clad additive for lubricating compositions containing a salt of a fatty acid and organic acid, characterized in that it additionally contains water and mineral oil, and as a salt of a fatty acid contains a mixture of salts of monovalent and divalent copper oleic and / or naphthenic and / or fatty acid fractions With ₆ -C ₁₇ and as an organic acid it contains oleic, and / or naphthenic, and / or fatty acid fractions With ₆ -C ₁₇ in the following ratio, wt.%:
Monovalent copper salt of oleic, and / or naphthenic, and / or fatty acid fraction C ₆ -C ₁₇ - 1 - 20
The salt of divalent copper of oleic, and / or naphthenic, and / or fatty acid fraction C ₆ -C ₁₇ - 1 - 20
Oleic and / or naphthenic and / or fatty acid of the fraction C ₆ -C ₁₇ - 10 - 60
Water - 0.001 - 0.05
Mineral oil - Up to 100s

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