RU1806175C - Lubricant composition - Google Patents

Abstract

Lubricant composition for automotive engines contains May. %: 1.9-2.2 copolymer of hexene-1 with dicyclopentadiene mol. m. 10000-12000, having 5-20% units of dicyclopentadiene, 6.7-7.3 calcium sulfonate, 0.4-0.6 calcium alkyl salicylate; 0.9-1.3 zinc dialkyldithiophosphate; 2.0-2.3 polyalkenylsuccinimide; 0.003 polymethylsiloxane and up to 100 mineral oils. 3 tab

Description

The invention relates to compositions for automobile engines.

The purpose of the invention is to improve the viscous-temperature and low-temperature properties of the lubricant composition.

The goal is achieved by introducing into the known composition b as a viscosity additive a copolymer of hexene-1 with scicyclopentadiene instead of the thickening additive KP-10 polyisobutylene and part of the antiformer component DF-11.

A copolymer of hexene-1 with dicyclopentadiene was obtained by co-polymerizing hexene-1 with dicyclopentadiene by the ionic mechanism. The copolymer is a highly viscous product from straw to light brown in color, well soluble in aliphatic and aromatic hydrocarbons, as well as in mineral oils. The copolymer has a molecular weight of 10,000-12,000 and contains 5-20% of the units of dicyclopentadiene.

In the proposed lubricating composition, the content of all components should be in the following proportions, May. %:

Hexene-1 copolymer with dicyclopentadiene - thickening additive 1.9-2.2 Calcium sulfonate (PMS A) - neutralizing additive 6.7-7.3 Calcium alkyl salicylate (ASA) - dispersant 0.4-0.6 Zinc dialkyldithiophosphate SDF-11 ) - anticorrosive additive 0.9-1.3 Polyalkenylsuccinimide (C-5A) - detergent-dispersant additive 2.0-2.3 Polymethylsiloxane (PMS-200A) - antifoam additive 0.003 Mineral oil Up to 100

The composition is prepared by simple mechanical mixing.

Sufficiently high anticorrosive properties of the copolymer allowed to reduce the concentration of the DF-11 additive (anticorrosive

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00

oh oh

x

with

with

sultry component) in the composition hardly once.

In order to select the optimal variant of the proposed lubricating oil, comparative tests of said oil containing various concentrations of additives were carried out.

Example 1. To 87.2% ACB-5 oil, 2% copolymer of hexene-1 with dicyclopentadiene, 7% PMS A sulfonate, 0.5% ASA alkyl salicylate, 1.1% DK-11.2 dialkyl dithiophosphate are added , 2% polyalkenyl-succinimide C-5A. The resulting composition is characterized by the following characteristics: viscosity at 100 ° C -9.58 mm2 / s, alkaline number 5.7 mgKOH / g. ash content of 0.87%, corrosion 2.3 g / m, washing properties of the point.

Example 2. To 86.9% ACB-5 oil, 2% copolymer, 7.3% PMS A, 0.5% ASA, 1.1% DF-11.2.2% C-5A were added. The resulting composition has the following characteristics: viscosity at 100 ° C 9.62 mm2 / s, alkaline number 5.9 mgKOH / g, ash content 0.92%, corrosion - no, washing properties - 0.5 points.

Example 3 To a 87.5% ACB-5 oil, 2% copolymer was added. 6.7% PMS A, 0.5% ASA, 1.1% DF-11.2.2% C-5A. The resulting composition has the following indicators: viscosity at 100 ° С 9.54 mm2 / s, alkaline number 5.6 mgKOH / r, ash content 0.87%, corrosion - no, washing properties - 0.5 points ..

Example 4. To 87.1% of ACB-5 oil, 2% copolymer, 7% PMS A, 0.6% ASA, 1.1% DF-11.2.2% C-5A were added. The resulting composition has the following indicators: viscosity at 100 ° C 9.60 mm / s, alkaline number 5.8 mgKOH / r, ash content 0.88%, corrosion resistance 2.7 r / m2, washing properties 0.5 points.

Example 5. To 87.3% of ACB-5 oil, 2% of copolymer, 7%, PMS A, 0.4% ASA, 1.1% DF-11.2.2% C-5A were added. . The resulting composition has the following characteristics: viscosity at 9.57 mm2 / s,. the alkaline value is 5.6 mgKOH / g, the ash content is 0.86%, the corrosivity is 3.0 g / m2, the washing properties are 0.5 points.

Example 6 2% copolymer, 7% PMS A, 0.5% ASA, 0.9% DF-11, 2.2% C-5A were added to 87.4% of ACB-5 oil. The resulting composition has the following characteristics: viscosity at 100 ° С 9.56 mm / s, alkaline number 5.63 mgKOH / r, ash content 0.83%, corrosion - no, washing properties - 0.5 points.

Example 7 To a 87% ACB-5 oil, 2% copolymer, 7% PMS A, were added.

0.5% ASA, 1.3% DF-11, 2.2% C-5A. The resulting composition has the following characteristics: viscosity at 100 ° C 9.62 mm2 / s, alkaline number 5.8 mgKOH / r, ash

0.95%, corrosion - absence, washing properties 0-0.5 points.

Example 8. 2% copolymer, 7% PMS A, 0.5% ASA, 1.1% DF-11, 2% C-5A were added to 87.4% ACB-5 oil. The obtained composition has the following indicators: viscosity at 100 ° С 9.56 mm2 / s, alkaline number 5.5 mgKOH / r, ash content 0.86%, corrosion - no, washing properties 0.5-1 points (normal more

5 0.5 points).

Example 9 To a 87.1% ACB-5 oil was added 2% copolymer, 7% PMS A, 0.5% ASA, 1.1% DF-11.2.3% C-5A. The resulting composition has the characteristics described in Example 1, i.e. a change in the concentration of C-5A in the range of 2.2-2.3% does not lead to a significant change in the quality of the lubricant composition,

PRI me R 10, To 87.4% oil ASV-5

5 1.8% copolymer, 7% PMS A, 0.5% ASA are added; 1.1% DF-11; 2.2% C-5A. The resulting composition has the following characteristics: viscosity at 100 ° C 9.44 mm2 / s, alkaline number 5.8 mgKOH / r, ash

0 0.87%, corrosion resistance 3.4 g / m2, washing properties - 0.5 points, viscosity index 130,

viscosity at minus 18 ° С-3430 mm2 / s.

Example 11 2.2% copolymer, 7% PMS A were added to 87% ACB-5 oil.

5 0.5% ASA, 1.1% DF-11.2.2% C-5A. The resulting composition is characterized by: viscosity at 100 ° C 9.83 mm2 / s, alkaline number 5.8 mgKOH / r, ash content 0.87%, corrosion - absence, washing properties 0.5

0 points, viscosity index 138, viscosity at minus 18 ° C 3700 mm2 / s.

Example 12 2.3% copolymer, 7% PMS A, 0.5% ASA were added to 86.9% ACB-5 oil. 1.1% DF-11.2.2% C-5A. Obtained5 on the composition has the following indicators: viscosity at 100 ° С 10.1 mm2 / s, alkaline number 5.8 mgKOH / r, ash content 0.87%, corrosion - no, washing properties 0.5 points, „index in vigor

0 139, viscosity at minus 18 ° С 3950 mm2 / s

Thus, an optimum concentration of the copolymer providing good viscous-temperature and low-temperature properties is 1.95 2.2%. At a lower concentration of the copolymer (1.5%), the viscous-temperature properties do not satisfy the requirements; increasing the concentration above the upper limit (2.4%) does not give an additional effect (Table 1).

The optimal composition of the lubricating composition is, containing in% May: 2 - copolymer, 7 - PMS A, 0.5 - ASA, 1.1 - DF-11, 2.2 - C-5A. Reducing the amount of additives DF-11 in the known composition leads to a decrease in its ash content.

A comparative study and physico-chemical parameters of the prototype and composition are presented in table. 2

As can be seen from the data table. 2, the proposed oil in viscous-temperature, low-temperature properties and in sulfate ash has an advantage over the known composition.

In order to assess the tendency to form high-temperature deposits, a motor test of the proposed composition was carried out in comparison with M-bz / SE commercial oil, which was also taken as the base object for comparison. The tests were carried out at the NAMI-Sh installation at high temperature according to GOST 20991-75. The results of the tests are presented in table. 3

As can be seen from the data table. 3, the oil thickened with a copolymer of hexene-1 with dicyclopentadiene in terms of performance (mass of deposits in a centrifuge and the total estimate of deposits) is superior to oil thickened with polyisobutylene KP-10.

Claims (1)

SUMMARY OF THE INVENTION A lubricating composition containing a mineral oil, a viscous additive, calcium sulfonate, calcium alkyl salicylate, zinc dialkyldithiophosphate, polyalkenylsuccinimide and polymethylsiloxane, characterized in that, in order to improve the viscous and low temperature properties, the oil is low additives contains a copolymer of hexene-1 with dicyclopentadiene mol. m. 10000-12000, having units of dicyclopentadiene in the following ratio of components, May. %: In viscous additive 1.9-2.2 Calcium Sulfonate 6.7-7.3 Alkyl Salicylate calcium 0.4-0.6 Dialkyldithiophosphate zinc 0.9-1.3 Polyalkenylsuccinimide2.0-2.3 Polymethylsiloxane 0.003 Mineral oil Up to 100 Table 1 table 2 Continuation of the table. 2 Table 3