RU2528083C1 - Method to determine quality of lubricant oils - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: oil sample of constant mass is heated under constant temperature with mixing, within equal intervals of time they take a part of the oxidised oil sample, and in each of them they determine the coefficient of oxidised oil light flux absorption by means of photometric measurements, and it is tested for antiwear properties, at the same time they determine the diameter of the wear spot and the coefficient of antiwear properties P, equal to K_a/U, where K_a - coefficient of light flux absorption, and U - diameter of wear spot, mm, they build a linear graphical curve of the antiwear properties coefficient P dependence on the coefficient of absorption of the light flux K_a, which is used to determine antiwear properties of lubricant oils. According to the invention, in the method they additionally determine impact of steel at quality of lubricant oils. At the same time they additionally heat the oil sample of constant mass with a steel element under constant temperature with mixing, within equal intervals of time they take a part of the oxidised oil sample and perform the above cycle of tests. Then they build linear graphical curves of dependence of antiwear properties coefficients on coefficients of light flux absorption for oils tested without steel and with steel, using which, they determine speed of variation of the coefficient of antiwear properties by means of determination of the ratio of P/K_a. Impact of steel at quality of lubricant oils is estimated by the value of the coefficient of steel impact K_si, determined in accordance with the following formula: K_si=(V_aw-V_aws)/V_aw×100%, where V_aw and V_aws - are accordingly speeds of variation of the coefficient of antiwear properties of oil tested without steel and with steel.

EFFECT: improved information value of determination and justification of selection of lubricant materials.

1 tbl, 1 dwg

Description

The invention relates to a technology for controlling the quality of lubricating oils in their application and compatibility with materials of machine parts.

A known method for determining the quality of motor oils in which a lubricated friction pair is tested, samples of the working oil are taken, optical density is recorded, the area of wear spots on the friction surface is determined, and the quality of oils is determined by the ratio of optical density to the area of wear spots (USSR Author's Certificate No. 1165939, date priority 06.01.1984, publication date 07.07.1985, authors Kovalsky B.I. and Sorokin G.M., RU).

The closest in technical essence and the achieved result is a method for determining the quality of lubricating oils, in which an oil sample is heated at a constant temperature with constant mass stirring, a portion of an oxidized oil sample is taken at regular intervals, the light flux absorption coefficient is determined by photometry, tested for anti-wear properties, determining wear scar diameter ratio and antiwear properties according to the formula p = K _p / U, where A _n - light absorption coefficient homo and; U is the diameter of the wear spot, mm; then build a graphical dependence of the coefficient of antiwear properties P on the absorption coefficient of the light flux and the quality of lubricants is determined by the slope of the dependence on the abscissa axis (RF Patent No. 2454654, priority date 02.25.2011, publication date 02.27.2012, authors Kovalsky B.I. et al., RU, prototype).

The disadvantages of the known analogue and prototype are their low information content and limited use for determining the quality of lubricating oils due to lack of data with their compatibility with materials of friction pairs.

The objective of the invention is to increase the information content for determining the quality of lubricating oils by obtaining data on their compatibility with materials of friction pairs.

To solve the problem in a method for determining the quality of lubricating oils, which consists in the fact that a constant-mass oil sample is heated at a constant temperature with stirring, at a regular interval, a portion of the sample of oxidized oil is taken, in each of which the absorption coefficient of the light flux of oxidized oil is determined by photometry and test it for anti-wear properties, while determining the diameter of the wear spot and coefficient of anti-wear properties P equal to K _p / U, where K _p is the absorbed coefficient luminous flux, and U is the diameter of the wear spot in mm, a linear graphical dependence of the coefficient of anti-wear properties P on the absorption coefficient of the light flux K _p is used, which is used to determine the anti-wear properties of lubricating oils, according to the invention, the method further determines the effect of steel on the quality of lubricating oils oils, while additionally heating a sample of constant weight oil with a steel element at a constant temperature with stirring, at regular intervals, part of the samples are taken oxidized oil and conduct said test cycle, build linear image depending coefficients antiwear properties of the absorption coefficients of the light flux for oils tested without steel with steel, which determines the rate of change antiwear properties factor by determining the ratio P / K _p, and the effect began to the quality of lubricating oils is evaluated by the value of the coefficient of influence of steel K _sun , determined by the formula: K _sun = (V _p -V _ps ) / V _p × 100%, where V _p and V _ps are, respectively, the rate of change of the coefficient coefficient of antiwear properties of oils tested without steel and with steel.

The drawing shows the dependence of the coefficient of antiwear properties on the absorption coefficient of the light flux obtained on the examples of motor oils: a) mineral Spectrol Super Universal 15W-40 SF / CC; b) - partially synthetic Mobil Super 10W-40 SJ / CF; c) - synthetic Visco 5000 5W-40 SJ / CF, - tested without steel (1) and with ШХ15 steel (2).

The method is as follows.

Engine oils of various basic bases were tested: mineral - Spectrol Super Universal 15W-40 SF / CC; partially synthetic - Mobil Super 10W-40 SJ / CF and synthetic - Visco 5000 5W-40 SJ / CF. As an example of a steel specimen, the upper bearing cage No. 203 with a diameter of 47 mm, made of ШХ15 steel, was selected. Oil samples were tested separately without steel and with steel. The mass of the oil sample was 100 ± 0.1 g. The samples were thermostated at a constant temperature, for example 180 ° C, with stirring with a glass stirrer in a glass beaker with a rotation frequency of 300 ± 2 rpm. After every 8 hours of testing, part of the sample of oxidized oil is taken for direct photometry and determination of the absorption coefficient of the light flux K _p , and also part of the sample is tested on a three-ball friction machine with a "ball-cylinder" scheme. The sliding friction parameters are chosen constant: load - 13 N; sliding speed - 0.68 m / s; temperature of the test oil in the volume - 80 ° C; test time - 2 hours.

After two hours of testing, the diameters of the wear spots are measured on three balls and the arithmetic mean value is determined. As samples are taken, the marketable oil is added to the glass beaker to the original weight (100 ± 0.1 g) and the test is continued by the same method and the same parameters are measured. Testing of oil samples with and without steel is continued until the light absorption coefficient of 0.7-0.8 units. Photometry of oxidized oils without steel and with steel is carried out at a thickness of a photometric layer of 2 mm.

The obtained results determine the coefficient of anti-wear properties P, taking into account the wear and concentration of oxidation products during thermostating of oils without steel and with steel, according to the corresponding formulas:

P = K _p / U and Ps = K _ps / U _c , where K _p and K _ps are the absorption coefficients of the light flux of thermostated oils, respectively, without steel and with steel;

U and U _c are the arithmetic mean diameters of the spots of wear, mm

Next, linear graphical dependences of the coefficient of anti-wear properties P on the absorption coefficient of the light flux Kp are constructed for oils of various basic bases tested without steel and with steel (Fig. A, b, c). From the obtained dependencies determine the rate of change of the coefficient of anti-wear properties (V _p ) by determining the ratio P / K _p .

Then determine the coefficient of influence of steel K _VS on the quality of the lubricant according to the formula:

K _vs = (V _p -V _ps ) / V _p × 100%,

where V _p and V _ps are, respectively, the rate of change of the coefficient of anti-wear properties of oils tested without steel and with steel ШХ15.

Motor oil test results are shown in the following table.

Table Test results of motor oils of various basic bases Brand of oil The absorption coefficient of the light flux, To _p Coefficient of antiwear properties, P The rate of change of the coefficient P The coefficient of influence of steel To _sun ,% without steel with steel without steel with steel without steel with steel Mineral Spectrol Super Universal 15W-40 SF / CC 0.133 0.177 0.5 0.479 3.89 3.47 10.7 0.257 0.267 1,0 0.82 0.433 0.447 1,6 1.4 0.6 0.543 2,33 1.8 0.82 0.64 3.2 2.2 0.713 2,4 0.767 2.6 Partially Synthetic Mobil Super 10W-40 SJ / CF 0.167 0.2 0.6 0.6 4.1 3.31 19,2 0.183 0.423 0.7 1,2 0.28 0.487 1.17 1,58 0.41 0.627 1,6 2.04 0.523 0.757 2.04 2,5 0.637 2.62 0.72 2.93 0.793 3.22 Synthetic Visco 5000 5W-40 SJ / CF 0.11 0.1 0.34 0.26 4.39 2,58 41.2 0.213 0.19 0.82 0.49 0,307 0.287 1.33 0.75 0.423 0.5 1.68 1.29 0.513 2.26

The table shows that the coefficient of influence of steel on the quality of oils amounted to: for mineral Spectrol Super Universal 15W-40 SF / CC - 10.7%; for partially synthetic Mobil Super 10W-40 SJ / CF - 19.2%; for synthetic Visco 5000 5W-40 SJ / CF - 41.2%.

The table also shows that ШХ15 steel reduces the quality of motor oils regardless of the base base and is compatible with Spectrol Super Universal 15W-40 SF / CC mineral oil and partially synthetic Mobil Super 10W-40 SJ / CF.

Using the invention, it is possible to determine quantitative indicators of the influence of steels on the quality of lubricating oils (anti-wear properties), to create a data bank on the effect of various structural steels on oils of various basic bases and to reasonably choose those lubricants that are compatible with steels.

Claims (1)

A method for determining the quality of lubricating oils, which consists in the fact that a constant-mass oil sample is heated at a constant temperature with stirring, a portion of the sample of oxidized oil is taken at regular intervals, in each of which the absorption coefficient of the light flux of the oxidized oil is determined by photometry and tested for anti-wear properties in this case, the diameter of the wear spot and the coefficient of antiwear properties P equal to K _p / U are determined, where K _p is the absorption coefficient of the light flux, and U is the diameter of the heels for wear in mm, build a linear graphical dependence of the coefficient of anti-wear properties P on the absorption coefficient of the light flux K _p , which is used to determine the anti-wear properties of lubricating oils, characterized in that the method further determines the effect of steel on the quality of the lubricating oils, while additionally heating the sample constant weight oils with a steel element at a constant temperature with stirring, at regular intervals, part of the sample of oxidized oil is taken and carried out In this test cycle, linear graphical dependences of the antiwear properties coefficients on the light flux absorption coefficients for oils tested without steel and steel are constructed, which are used to determine the rate of change of the antiwear properties coefficient by determining the P / K _p ratio, and the effect of steel on the quality of lubricating oils is evaluated meaningfully influence coefficient K become _entirely determined by the formula: K _Sun = (V _n -V _nc) / V _n × 100%, where V _n and V _ps - respectively change the speed ratio antiwear properties Asel tested without steel and steel.

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