SU1004857A1 - Method of evaluating petroleum product influence on metal surface physical chemical condition - Google Patents

Description

The invention relates to methods for evaluating the properties of petroleum products, in particular lubricants, and is intended to evaluate the interaction of lubricants, as well as various functional additives with metal surfaces in the friction units of machines and mechanisms.

There is a method of evaluating the properties of petroleum products by measuring the magnitude and direction of the electric field between dissimilar metals separated by a layer of mineral oil with functional additives. The interaction of additives dissolved in oil with the surfaces of metal electrodes leads to a change in the magnitude and direction of the electric field, which is an indicator of the different modifying effects of the additives on metals 1.

The disadvantage of this method is that the reference electrode is in the same one. the medium with the working electrode and, therefore, its surface is also subjected to the modifying action of functional additives.

The closest to the invention to the technical essence is

A method for evaluating the effect of petroleum products on metal surfaces, which consists in holding a metallic

from the sample in the tested oil product, removal of oil product residues from its surface and measurement of the electromotive force (EMF) of the electrode pair; including a metal sample (Q ets and a reference electrode, in a reference liquid. By introducing a pretreatment of a metal sample of a petroleum product. and making subsequent measurements in a reference liquid, the surface of the reference electrodes is always under the same conditions. Diesel fuel brand L, which is most IE.

20 the number of tested petroleum products and individual hydrocarbons satisfies the conditions of the C2 measurements.

The disadvantage of the known method is that the use of diesel fuel or other individual hydrocarbons as a reference liquid causes considerable difficulties during the tests and the reproducibility of the results of changes due to variable

moisture content in diesel fuel depending on atmospheric changes. conditions In addition, pre-cleaning of diesel fuel is required, since samples of fuels from different batches differ from one another in the content of impurities.

Since diesel fuel is capable of dissolving an oil film adsorbed on the surface of a metal sample, this is also an additional source of error during testing.

The purpose of the invention is to improve the accuracy of the assessment.

The goal is achieved by the method of assessing the effect of petroleum products on the physicochemical state of metal surfaces by holding a metal sample in the test oil, removing residues, oil products from its surface and measuring the electrodes at the 1st force of the electrode pair in the reference fluid as a reference fluid use solution / nonionogen): surfactant (surfactant in distilled water.

Moreover, as a non-ionic surfactant, a block copolymer of ethylene and propylene oxides based on propylene glycol is used In an amount of 0.0010, 003 wt.%.

 The proposed method makes it easy to ensure that the reference liquid standard is sufficient to produce reproducible measurement results. In addition, when using distilled water, it is possible to reduce the time-drift and increase the stability of the test results, which is also ensured by introducing a non-inogenic surfactant into the water.

The method can be implemented, for example, in a cell consisting of dow coaxial cylindrical electrodes, one of which (external) is a cpasHeHHHj electrode made of stainless steel and also serves as a container for the reference liquid.

The cell is placed in an electrostatic shield and connected with a shielded amplifier cable.

Testing is performed as follows.

They choose as a working agent, made of a metal or alloy, corresponding to the material of the parts of the friction units, in which the tested oil product should work. The electrode is washed with a solvent, cleaned with an emery paper and an adsorbent and placed in a cup with oil. Then maintain the elekgrod in the oil at

set temperature for a set time (o, 5-1 h). Next, prepare the external electrode for testing: cleaned with emery paper and washed with reference liquid.

After that, the standard liquid is poured into the external electrode.

The working electrode is removed from the oil product and the remnants of the latter are removed from the surface so as not to disturb the adsorbed layer. Then an elec: rod is placed in a cell, an amplifier is switched on and measurements are taken.

Approximately 1. The choice of the concentration of non-ionic surfactant is explained by the example of the Evaluation of the modifying high-index anti-depleting oil ACB-5 in relation to steel ShH-15. The aging of steel samples in oil is performed at room temperature for 0.5 hour

The evaluation results are shown in Table. one.

The EMF measurements of the Electrode pair are made in distilled water with various surfactant contents.

In order to better differentiate the tested petroleum products, one constant surfactant concentration is selected, at which the EMF value of the electrode pair is greatest. In the proposed method according to the table. 1, it is intended to use PAE concentrations in the range from 0.001 to 0.003%.

Table 1

Example 2 Comparison of the proposed method with the known one is illustrated by the example of an evaluation of the surface properties of an oil of class M-11 with two types of additives: succinimide type — sample 1 and sample 2 and sulphonate type — sample 3 and sample 4. concentration of 2%.

A qualitative comparison of both methods was carried out taking into account the evaluation of the anti-enzymatic properties of the oils on a laboratory tribometer.

The results are listed in the table. 2.

table 2

1 2 3 4

Claims (2)

The proposed method can be used as an express method (edenki properties of lubricants caused by their penetration with metal surfaces as well as in studying the mechanism of action of antiwear, extreme pressure anticorrosive and other functional additives to petroleum products. Invention formula 1. Method for evaluating the effect of oil products on physico-chemical cov, then the metal surfaces are supported by holding a metal sample in the test oil, removing oil residue from it. NOSTA y.izmervni electro motive force of the electrode pairs in the reference liquid L of t and v and w th .i and in that, for the purpose povy -388 0.2 -355 0.3-117 0.68 -108 0.72 precision, as a reference liquid, use a solution of non-ionic surfactant (surfactant) in distilled water. , 2. The method according to claim 1, characterized in that a block copolymer of ethylene oxides and propylene is used as a non-ionic surfactant. based on propylene glycol as 0.001-0.003 wt.%. Sources of information taken into account in the examination 1.Shor GI et al. Investigation of the mechanism of action of detergents to motor oils. In the book. .: Additives to oils. M., Himi, 1966, p. 219-228. 2.Lapin V.P. Investigation of some performance properties of oils with electrometric additives. Cand. dis. M., VNIIKP, 1970 (. Prototype),