SU773492A1 - Method of evaluating washing and stabilizing properties of lubricating oils - Google Patents

Description

(54) METHOD FOR ESTIMATING POWER-STABILIZING PROPERTIES OF LUBRICATING OILS

one

This invention relates to methods for the analysis of lubricating oils with detergents. The method can be used when choosing a grade of lubricating oils, determining the period of its change, 5 as well as when setting rejection parameters for working oils.

It is known that the total assessment of the cleaning effect of lasl depends on the intensity of the additives in the areas of solubilization, dispersion, stability, and detergency (the detergent properties). The optimal ratio of the effectiveness of the individual components, which determine the detergent effect, depends on the operating conditions of the oil and the properties of the detergent. To determine the correspondence between them, appropriate methods are needed for evaluating each of the 0 directions of detergent properties, including stabilizing ones. Known methods for evaluating the detergent properties of oils, as a rule, do not provide a differentiated assessment of the component parts that determine the detergent action of lubricating oils (additives).

To the known methods of assessing detergent stabilizing properties of lubricating oils containing detergents, DA

The method can be attributed to the fact that the oil is oxidized in a thick layer at 150-300 ° C in the presence of a substance that forms a dispersed phase, for example, a dialkyl dithiophosphoric acid calcium salt. Then, the oxidized oil is filtered through a standard porosity filter and, judging by the degree of contamination of the filter, it is judged that the oil potential is 1.

A significant disadvantage of the method is that it is based on artificial pollution of the oil, which leads to a distortion of the real picture of the pollution during the operation of the oil in the internal combustion engines. In addition, this method leads to a change in the accuracy of screening the filter in the filtering process.

A method is also known that radioactive soot is introduced into the test oil, the mixture is filtered through an oxide powder; Talla and the amount of radioactive soot is recorded in the filtrate, which is used to judge the effectiveness of detergent properties of the additives 2.

The disadvantage of this method is the difficulty of implementation associated with the need to pretreat the oil sample with radioactive isotopes and ultrasound.

There is also known a method for determining the effectiveness of the detergent effect of the additives, which consists in diluting the sample of the oil in a light organic solvent and centrifuging it. Then, the coking behavior of the base, working and centrifuged oil is determined and, with respect to the difference in the coking behavior of the centrifuged and base oils, to the difference in the coking behavior of the working and base oils, the effectiveness of the detergent effect of the additives is judged.

Significant disadvantages of the method are the large laboriousness and duration of the operation to determine the coking ability of oils.

The purpose of the invention is to reduce the time and improve the accuracy of determining the detergent-stabilizing properties of lubricating oils.

The goal is achieved by the fact that in the method of evaluating the detergent-stabilizing properties of lubricating oils by centrifuging them with a light organic solvent, the initial and final values of the optical density of the oil solution are determined during centrifugation, and the detergent-stabilizing properties of the latter are determined by defined by the formula

ten

ms

-g-gn where MS is the indicator of detergent-stabilizing properties, min, t is the total time of centrifugation of the oil solution, min d, d | - the initial and final values of the optical density of the solution. The initial value of the optical raft

after determination of coarse particles of contamination (30 minutes after the start of centrifugation) is determined, and its final constant value is taken as the final value of the optical density.

At the same time, in order to ensure the required accuracy, the oil sample is dissolved in gasoline in such a proportion that its optical density value is within the working range of the photoelectric-colorimeter scale, i.e. within (0.05-0.9). In practice, this condition is provided by a solution in which the ratio of oil and gasoline is in the range of 1: (50-100).

The method is implemented to evaluate the detergent-stabilizing properties of lubricant oil mark MUG CA (TU 38-101-548-75), which has worked 100 hours in the installation of IM.

The method is carried out in the following sequence.

After thorough mixing, a sample of oil was taken in an amount of 1 ml and placed in a measuring cylinder with a total capacity of 10 ml with a delin of 0.1 ml. The oil in the measuring cylinder is diluted with gasoline at a ratio of 1:10. Then, 1 ml of the prepared solution is taken and placed in a similar measuring cylinder and again diluted in gasoline in a ratio of 1:10. Thus, in the end, the ratio of oil to gasoline is 1: 100.

The resulting solution is placed in a glass test tube and installed in 5 a laboratory centrifuge of the type TsUM-1. Centrifugation is carried out with a separation factor of 1500 g for 30 minutes. After centrifugation, a small amount of gasoline 0 is added to the centrate to bring the concentration to the initial ratio, i.e. 1: 100. Then the solution is placed in a cuvette with a height of 10 mm and using an FEK-56 m type photoelectric colorimeter (at a wavelength of incident light of 400 μm, i.e. using a red filter), the initial optical resolution of the fugate is determined. After that, the solution is placed in a centrifuge again and after 30 minutes of centrifugation its optical density is again determined.

Centrifugation and determination of the optical density of the centrate are repeated until a constant value of optical density is obtained.

Thus, the value of the initial and final optical densities of the solution (fugate), according to the formula

-2

ten

t.

MS

dn determine the index of the wet-stabilizing properties of the test oil, which is 1.66. The formula includes the following values: t g 60 min; dj 0.54; d 0.18. A threefold centrifugation and determination of optical density. The results of measurements of optical density are shown in the table.

With the help of the proposed method, tests were also carried out on oils of other groups, in particular MUD oil, MW oil, and imported oil SAE-30, S3 (Teboil). It is established that the longer the total centrifugation time required to achieve a constant value of optical density and the smaller the difference between its initial and final values, the higher the detergent-stabilizing properties of the oil and vice versa. Carried out It has also been established by research that during the operation of oil in ICE and the accumulation of contamination products, the indicator of detergent-stabilizing properties (the magnitude of the inverse decrease in the rate of decrease of optical density) constantly decreases. Therefore, an oil in which this indicator is less than one is considered to have lost its detergent and stabilizing properties. This oil will replace the replacement.

Thus, the use of the proposed method makes it possible to evaluate the stabilizing property of lubricating oils and additives, which is one of the constituent characteristics of their detergent properties.

Claims (3)

1. Author's certificate of the USSR 5 No. 149524, cl. G 01 N 33/30, 1962. 2. USSR author's certificate number 323737, cl. G 01 N 33/30, 1972. 3. Author's certificate of SSS number 258722, cl. G 01 N 33/30, 1970 (prototype) „