RU2646811C1 - Method of estimation of efficiency of lubricants - Google Patents

Abstract

FIELD: test equipment.

SUBSTANCE: method consists in operating a friction pair in the presence of a lubricant, passing an electric current through it with a fixed friction pair and with a steady-state friction regime. The electrical capacitance between the upper and lower surfaces of the finger-friction pair in the presence of a lubricant layer is determined and the dielectric constant of the test material and the orientation of the molecules in the layer are judged according to the obtained results. The higher the ordering factor of molecules in the oriented layer (closer to one), and the vector of preferential orientation of molecules coincides with the electric field vector created due to capacitance measurement, the higher the dielectric permittivity of the lubricant and the lubricating properties of the test sample; together with the capacitance measurements, a film thickness measurement is carried out using a laser meter; the results are obtained with a fixed friction pair and with steady-state friction mode, after which the effectiveness of the lubricant and the role of the triboactive components in the lubricant composition are judged by comparing the test data with the required parameters.

EFFECT: possibility of extending the range of evaluated properties of lubricants.

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Description

The invention relates to methods for studying the tribological properties of lubricants used in mechanical engineering.

A known method for determining the lubricity of oils is that a friction pair is operated in the presence of a lubricant, an electric current is passed through it, a static voltage is removed on the surfaces of a friction pair by changing the polarity of the electric current, direct current is measured with a fixed friction pair and with a steady friction the presence of lubricant in the contact, and as a parameter, their ratio is used [a.s. 1054732 USSR, MKI3 G01N 3/56. A method for determining the lubricity of oils / BI Kovalsky, G.M. Sorokin, A.P. Efremov. No. 3468408 / 25-28 prior. 07/08/1982 Publ. 11/15/83, bull. No. 42].

A known machine for testing materials for friction type 2168 UMT, which tests friction, antifriction and lubricants for friction and wear (website http://www.tochpribor-nw.ru/production/frictiontesting, http://lib.madi.ru /fel/fel1/fel16M509.pdf). Testing schemes: a disk finger, a disk block. The drive of the machine is electromechanical with smooth regulation of the speed of rotation of the disk. In the process, using a pneumatic device, press the sample to the disk and measure the force of the clip. During the tests, the friction moment, clamping force, temperature, rotation frequency, and friction path (total number of disk rotations) are measured.

The disadvantage of these methods is that the test results do not make it possible to assess the degree of molecular orientation in the lubricating layer and its effective thickness. Moreover, the presence of oriented layers and the effective thickness of the lubricating layer also determine the quality of the lubricants.

Known friction machine MTUG-01, designed for testing friction and wear of metal and nonmetallic materials in the application of various lubricants (website http://www.nanotech.ru/pages/about/mtu-1.htm).

The tests are based on the mutual movement of the test pieces pressed against each other with a given force in or without lubricants. During the test, the moment of friction is recorded with a graphic display of its change, as well as the temperature of the test samples. Contact scheme: end face of a rotating roller and fixed disk. The moment of friction is recorded by a strain gauge, the temperature by a thermocouple.

The disadvantages of the described method include the lack of accuracy in determining the lubricity of the test material, since there is no way to identify the thickness and evaluate the degree of molecular orientation in the lubricating layer.

The SMC-2 universal friction machine is known (site http://www.gubkin.ru/faculty/mechanical_engineering/chairs_and_departments/Uchebn_nauch_proizv_centr_po_remontu/experiment/experimentl.php), which tests materials for friction and wear during rolling, rolling and rolling with rolling and rolling schemes "disk-finger", "disk-disk", "ring-ring", "disk-block", "end-to-end", "cylinder-to-cylinder". The disk (cylindrical sample) is mounted on the drive shaft of the machine, the rotation of which is carried out by an electric motor through a belt drive. The loading of the samples is carried out through the counterbody installed in the block and interacting with the disk, and the movement carriage is balanced by the counterweight, which allows testing at low loads on the friction pair.

The disadvantages of the SMC-2 friction machine include measurement errors caused by the massive loading mechanism and the friction surface beating, friction in the bearings, in addition, it is not possible to identify the effective thickness and evaluate the degree of molecular orientation in the lubricating layer.

A device is known that implements a method for determining the coefficient of friction of materials according to the disk-block scheme, comprising a block with a counterbody and a disk mounted on the drive shaft. The disk (sample) is fixed on the output shaft of the drive, which interacts with two diametrically located blocks with counterbodies, strained through a system of levers, forming a closed power movable circuit and interacting with the measuring device. During measurement, the frictional moment arising during the rotation of the disk is transmitted to the measuring device, which is used to determine the coefficient of friction. The temperature in the contact zone is recorded by a thermocouple [patent 2461811 Russian Federation, IPC G01N 19/02 (2006.01). A device for determining the coefficient of friction of materials / V.A. Borisenko, S.A. Baryshnikov, V.V. Erofeev, N.V. Kravchenko, U.V. Paramonova .; applicant and patent holder of the Chelyabinsk State Agroengineering Academy Federal State Educational Institution of Higher Professional Education - No. 20111116403/28; declared 04/25/2011; publ. 09/20/2012, bull. No. 26]

The disadvantages of the method carried out by this device, as well as in the above method, include the inability to assess the degree of molecular orientation in the lubricating layer and its effective thickness. In this case, the presence of oriented layers and the effective thickness of the lubricant layer determines the quality of the lubricants.

The prototype adopted a method for determining the lubricity of oils, which consists in using a friction pair in the presence of a lubricant, passing an electric current through it, removing the static voltage on the surfaces of a friction pair by changing the polarity of the electric current, measuring direct current with a fixed pair of friction and with steady state friction in the presence of lubricant in the contact, while the current value is measured over the period from the start of the test to the stabilization of its value with the steady state friction depending dependences on friction time, load, sliding speed, mechanical properties of materials of friction pair and oil temperature. Then, their graphical dependencies are built and the lubricating ability of the oil is estimated by the parameters: adaptability, oil adaptability rate to the given friction conditions and oil compatibility coefficient, oil adaptability is determined by the time period from the beginning of the current decrease to its stabilization, the adaptability rate is determined by the angle of the graphical dependencies to the ordinate axis, the oil compatibility coefficient K _C is determined by the formula

where I _Z - a given value of the current passed through a pair of friction during immobility;

I _C - the value of direct current during its stabilization during friction [patent 2186386 Russian Federation, IPC G01N 33/30, G01N 3/56 Method for determining the lubricity of oils / B.I. Kovalsky, S.I. Vasiliev, S.B. Kovalsky, D.G. Barkov; applicant and patent holder Krasnoyarsk State Technical University - No. 2001106404/04; declared 03/06/2001; publ. 07/27/2002, bull. No. 21].

The disadvantages of the prototype include the fact that, with this method, it is also impossible to assess the degree of molecular orientation in the lubricant layer and the thickness of the lubricant layer. In this case, the presence of oriented layers and the effective thickness of the lubricant layer also determines the quality of the lubricants

The technical result of the claimed invention is to expand the range of evaluated properties of lubricants and, as a result, improve the quality and completeness of their evaluation, which, in turn, allows you to develop the most effective lubricants.

The specified technical result is achieved by the fact that in the method for determining the lubricating ability of oils, a friction pair is operated in the presence of a lubricant, an electric current is passed through it with a fixed friction pair and with a steady friction mode, according to the invention, the electric capacitance between the upper and lower surfaces of the finger-disk friction pair is determined in the presence of a lubricant layer and according to the testimony obtained, the dielectric constant of the material under study and the orientation of the molecules in the layer are judged, the more coefficient ordering of the molecules in the oriented layer (closer to unity), and the vector of preferential orientation of molecules coincides with the vector of the electric field produced due to measure capacitance, the dielectric constant of the lubricant mentioned above and the lubricating property of the test sample; together with capacitance measurements, a film thickness is measured using a laser meter; the results are obtained with a fixed pair of friction and with a steady mode of friction, after which they judge the effectiveness of the lubricant and the role of triboactive components in the composition of the lubricant by comparing the test data with the required parameters.

The technical result, which consists in expanding the range of evaluated properties of lubricants, is achieved by controlling the dielectric constant of the lubricant and the effective thickness of the lubricant layer.

The inventive method is as follows.

A pair of friction is connected according to the “finger-disk” scheme. In a stationary state in the presence of a layer of lubricant, a capacity measurement is performed using a capacity meter (RW-parameter meter GW 78105G) and the thickness of the lubricant layer is determined using a laser thickness meter (RAS-TM-10 laser meter). Next, the disk is rotated to a predetermined angular velocity, achieving a steady-state friction by stabilizing the rotational speed, and new capacitance measurements are made, and at the same time, the thickness of the lubricant layer. The need for simultaneous measurement of the layer thickness is due to the fact that it is necessary to calculate the specific values of shear deformations over the layer thickness and to control the boundary friction regime during the operation of the friction pair, which will make the assessment of orientation effects more reliable. According to the testimony, the dielectric constant of the material under study is judged (since it is proportional to the electric capacitance) and the degree of orientation of the molecules in the layer. Moreover, the greater the order coefficient of molecules in the oriented layer (closer to unity), and the vector of the preferred orientation of the molecules coincides with the vector of the electric field created by measuring the capacitance, the dielectric constant of the lubricant is higher and the lubricating properties of the test sample are higher and higher.

Claims (1)

A method for determining the lubricity of oils, which consists in operating a friction pair in the presence of a lubricant, passing an electric current through it with a fixed friction pair and with a steady friction mode, characterized in that the electric capacitance between the upper and lower surfaces of the finger-disk friction pair is determined in the presence of a layer lubricants and according to the testimony, they judge the dielectric constant of the studied material and the orientation of the molecules in the layer, with the greater the ordering coefficient of the molecules in oriented layer (closer to unity), and the vector of the preferred orientation of the molecules coincides with the vector of the electric field created by measuring the capacitance, the dielectric constant of the lubricant is higher and the lubricating properties of the test sample are higher and higher; together with capacitance measurements, a film thickness is measured using a laser meter; the results are obtained with a fixed pair of friction and with a steady mode of friction, after which they judge the effectiveness of the lubricant and the role of triboactive components in the composition of the lubricant by comparing the test data with the required parameters.