RU2016052C1 - Lubricating composition - Google Patents

Abstract

FIELD: protection against friction. SUBSTANCE: the lubricating composition comprises (wt %): 4.0-4.2 a barium salt resulting from condensation of alkylphenol and formaldehyde; 0.003-0.005 polymethylsiloxane; 3.0-3.2 a product of reaction between diethylene triamine and a sulfonated hexene-1-styrene copolymer and maximum 100 a mineral oil. EFFECT: improved properties of the lubricating oil. 3 tbl

Description

 The invention relates to compositions of lubricating compositions for internal combustion engines.

 A known lubricant composition for mineral oils of group "B" based on mineral oil containing 4% additive VNIINP-360 (a mixture of zinc dialkyl phenyl dithiophosphate and barium alkyl phenolate), 2% PMS (multifunctional sulfate additive), 1.5% VNIINP-354 (zinc dialkyl phenyl dithiophosphate ) and 0.003% PMS-200A (polymethylsiloxane) (1).

 Also known is a lubricant composition for motor oils of group "B" based on mineral oil M-8, containing 4% BFC (barium salt of the product of alkyl phenol formaldehyde condensation) as an antioxidant and detergent additive SB-3 (barium salt of sulfonated diesel oil) as a neutralizing additives 1.2% IHP-21 (barium salt of the condensation product of alkyl phenols with formaldehyde and ammonia treated with five-sulfur phosphorus) as an anti-corrosion additive and 0.005% PMS-200A (polymethylsiloxane) as an anti-foam additive adki (I). The specified lubricating composition has a large ash content, as it contains a significant amount of metal (Ba), and according to the viscosity-temperature properties it does not meet modern requirements.

 The aim of the invention is to reduce the ash content, improving the washing-dispersing and viscosity-temperature properties of the lubricating composition.

 This goal is achieved by introducing into the composition of the known composition ashless polymer multifunctional additive IHP-610 instead of the anti-corrosion additive IHP-21 and the neutralizing additive SB-3.

 The polymer additive ИХП-610 was synthesized by sulfonation of a copolymer of hexene-1 with styrene and further reaction of the obtained sulfonic acid with diethylene triamine. Additive ИХП-610 is a sedentary liquid of light brown color. It has a molecular weight of the order of 1000-1200.

Thus, the proposed lubricating composition contains mineral oil M-8 and additives BFK - antioxidant, washing, IHP-610 - anticorrosive and neutralizing, PMS-200A - antifoam in the following proportions, wt.%:
Polyalkynylsulfamide -
anticorrosive,
neutralizing additive ИХП-610 3-3,2
Barium Alkylphenolate -
multifunctional additive BFK 4-4,2
Polymethylsiloxane -
antifoam additive - ПМС-200А 0.003-0.005 Mineral oil M-8 Up to 100
The composition is prepared by simple mechanical mixing of the components.

 In order to choose the optimal variant of the lubricating composition, studies were conducted with a different percentage ratio of the components (Table 1).

 Comparative tests were conducted of the proposed oil containing various concentrations of these additives (table 2).

 As follows from the data table. 2, with an increase in the concentration of the additive IHP-610 from 2.8 to 3.2%, the viscosity increases, the viscosity index improves the washing properties of the oil.

 With an increase in the concentration of BFK additive from 3.8 to 4.2%, the alkaline number and the thermo-oxidative stability of the oil increase. However, a further increase in the concentration of BFK additive leads to an increase in ash content and a deterioration in the viscosity-temperature properties. Additive PMS-200A (polymethylsiloxane) is used as an anti-foam additive. Its action is more general and manifests itself in very small concentrations (4). Therefore, this additive is usually used in an amount of 0.003-0.005% and, as can be seen from the data in Table 2, does not affect the basic functional properties of the oil. Therefore, the optimal composition of the lubricating composition can be considered: 4-4.2% BFK, 3-3.2% IHP-610 and 0.003-0.005% PMS-200A.

 Comparative data of physico-chemical indicators and functional properties of the proposed and known compositions are presented in table.3.

 As can be seen from the data in table 3, the proposed lubricating composition surpasses the known oil in its main characteristics, taken as a comparison base.

 So, for example, if in the case of a known composition the viscosity index is 82, then the proposed composition helps to increase this indicator to 93. In this case, the ash content also decreases (from 0.75% to 0.6%), the alkaline number increases (from 3 mg KOH / g to 4.3 mg KOH / g), which leads to an improvement in the anticorrosive and neutralizing properties of the composition, meets the requirements of GOST 10541-78 for motor oils.

Claims (1)

LUBRICANT COMPOSITION containing barium salt of the product of the condensation of alkyl phenol with formaldehyde, polymethylsiloxane and mineral oil, characterized in that it further comprises the product of the interaction of diethylene triamine with sulfonated copolymer of hexene-1 with styrene in the following ratio, wt.%:
Barium salt of condensation product of alkyl phenol with formaldehyde 4.0 - 4.2
Polymethylsiloxane 0.003 - 0.005
The product of the interaction of diethylene triamine with a sulfonated copolymer of hexene-1 with styrene 3.0 - 3.2
Mineral oil Up to 100

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