RU2368648C1 - Mineral oil additive - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: additive contains, wt %: product of reacting oleic and boric acid with diethanolamine in molar ratio 1.2:1.5:3 respectively 85-95, benzotriazole 5-15.

EFFECT: improved antioxidative, anti-oil deposit and anticorrosive properties.

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Description

The invention relates to compositions of additives for mineral oils that improve their antioxidant, anti-burn and anticorrosive properties, and can be used in oils of internal combustion engines, aggregates and transmission units of automotive vehicles.

Known additive for mineral oils, which is the product of the interaction of oleic acid and anhydrous ammonia in the following ratio of reagents, wt.%: Anhydrous ammonia 2-6, oleic acid up to 100 (RU 2059691 C1, class C10M 129/40, 05/10/96) .

The closest analogue of the proposed technical solution is an additive to mineral oils, which is a product of the interaction of oleic acid, anhydrous ammonia and alcohol 5% iodine solution in the following ratio of reactants, wt.%: Anhydrous ammonia 2-6, alcohol 5% solution iodine 0.5-3.0 and oleic acid up to 100 (RU 2109798 C1, class C10M 129/40, 04/27/98).

The disadvantage of these additives is their relatively low level of antioxidant and antinagar properties.

The technical result of the invention is the development of additives to mineral oils with improved antioxidant, anti-burn and anti-corrosion properties.

This result is achieved in that the additive to lubricating oils based on a nitrogen-containing compound as a nitrogen-containing compound contains a mixture of the product of the interaction of oleic and boric acids with diethanolamine in their molar ratio of 1.2: 1.5: 3, respectively, and benzotriazole in the following ratio of components, wt .%:

The product of the interaction of oleic and boric acids with diethanolamine in their molar ratio of 1.2: 1.5: 3 85-95 Benzotriazole 5-15

A distinctive feature of the proposed technical solution is that when a product of the interaction of oleic and boric acids with diethanolamine (DEA) is mixed in their molar ratio of 1.2: 1.5: 3 and benzotriazole, the synergistic effect of enhancing antioxidant, anti-burn and anticorrosive effects occurs with the stated ratio of components properties of the obtained additive.

The introduction of the product of the interaction of oleic and boric acids with DEA, obtained at different molar ratios of the reagents, or at other mass ratios with benzotriazole, other than the stated ones, does not allow to obtain a synergistic effect of increasing antioxidant, anti-burn and anticorrosive properties.

Oleic acid is used according to GOST 7580-91, boric acid - according to GOST 187704-78, DEA - according to TU 6-09-2652-91.

The method of obtaining the product of the interaction of oleic and boric acids with DEA is as follows:

323 g (1.2 mol) of oleic acid and 315 g (3 mol) of DEA are charged into a reactor equipped with a stirrer, a Dean-Stark nozzle, a reflux condenser and a thermometer. The reaction mass is heated with stirring to 60-80 ° C, after which 93 g (1.5 mol) of boric acid are introduced and the temperature of the reaction mixture is raised to 160-180 ° C, keeping it at this temperature for 1-2 hours until formation homogeneous product with an amine number of 60-70 mg Hcl / g

Benzotriazole - 1,2,3 formulas C ₆ H ₅ N ₃ (TU 6-09-1291-87) is a white crystalline powder with a pink, cream or yellowish tint, melting point 96-99 ° C, the mass fraction of volatile substances is not more than 0.15%.

The proposed additive is prepared by mixing 85-95 wt.% The product of the interaction and 5-15 wt.% Benzotriazole at a temperature of 50-60 ° C for 20-30 minutes

The resulting additive is introduced into mineral oils (motor, transmission) in an amount of 2-5 wt.%.

Specific mineral oil additive formulations are given in table 1.

Assessment of the effect of the proposed additive on the oxidation process of engine oil M-8-B was carried out according to the BO-4 method. The essence of the method is the oxidation of oils in the presence of a copper catalyst for 15 hours at a temperature of 180 ° C and an air supply of 300 cm ³ / min, followed by determination of the change in alkaline number and photometric coefficient of oil contamination.

Antioxidant and antinagar properties were also evaluated by laboratory methods under the conditions of thermocatalytic oxidation at a temperature of 230 ° C. The evaluation was carried out by the change in optical density and the increase in viscosity as a result of three hours of oxidation.

The corrosion activity of M-8-B oil with 5% additive was determined in accordance with GOST 20502-75 by the change in the mass of lead plates.

The test results of the samples of motor oil M-8-B with the proposed additive and additive according to the prototype are presented in table 2.

The use of the proposed additives in the composition of lubricating oils will increase their antioxidant, anti-burn and anti-corrosion properties.

Claims (1)

Additive to mineral oils based on a nitrogen-containing compound, characterized in that, as a nitrogen-containing compound, it contains a mixture of the product of the interaction of oleic and boric acids with diethanolamine in their molar ratio of 1.2: 1.5: 3, respectively, and benzotriazole in the following ratio of components, wt .%:
The product of the interaction of oleic and boric acids with diethanolamine in their molar ratio of 1.2: 1.5: 3 85-95 Benzotriazole 5-15