UA86499C2 - ANTI-FRICTION MATERIAL ROMANIT-UVLSHDMB, METHOD for its production and element of friction unit - Google Patents

Abstract

The invention relates to anti-friction material with high level of strength, durability, toughness, which contains the components of anti-friction material and additionally inorganic compound of boron, which does not contain oxygen, molybdenum disulfide and oxygen containing boron compound at the respective ratio, method for its production and element of friction unit, made with the use of anti-friction material.

Description

of powders, wt.Uo: copper powder 37.0-60.0 copper powder 37.0-60.0 graphite powder the rest, graphite powder the rest, granulate to obtain granules of size 0.4- granulate to obtain granules of size 0.4- 2.0mm, granules are mixed with a second powder mixture 2.0mm, granules are mixed with a second powder mixture, which additionally contains molybdenum disulfide, a pulley, which additionally contains molybdenum disulfide, an inorganic boron compound that does not contain oxygen and an inorganic boron compound , which does not contain oxygen and an oxygen-containing boron compound with the following co-oxygen-containing boron compound with the following ratio of components, wt. 9Uo: ratios of components, wt. 9Uo: ferrophosphorus 0.65-5.52 ferrophosphorus 0.65-5.52 carbon fiber 0.65-15.31 carbon fiber 0.65-15.31 iron 14.36-26.79 iron 14.36-26.79 graphite 0.21-5.26 graphite 0.21-5.26 hexagonal boron nitride 0.1-5.0 hexagonal boron nitride 0.1-5.0 nickel 0.2-10.0 nickel 0.2-10.0 finely dispersed diamonds UDA 0.01-5.0 finely dispersed diamonds UDA 0 .01-5.0 non-standard ionic boron compound that is not inorganic boron compound that does not contain oxygen 0.005-3.4 contains oxygen 0.005-3.4 molybdenum disulfide 0.5-5.0 molybdenum disulfide 0.5-5.0 oxygen-containing boron compound 0.5 -3.4 oxygen-containing boron compound 0.5-3.4 copper or its alloys the rest, copper or its alloys the rest, at the ratio of components, wt.Uo: at the ratio of components, wt. o: granules 2.0-24.0 granules 2.0-24.0 shungite 0.01-22.0 fullerene carbon black 0.01-22.0 second mixture of powders the rest. the second mixture of the remaining powders. 16. The method of obtaining an anti-friction material 14. The method of obtaining an anti-friction material according to any of items 11, 13, 14, 15, which differs from item 10, which differs from the components in that shungite is introduced together with granules, two mixtures are prepared, and the first mixture is taken. The total content of shungite and granules is not too high. copper powder 37.0-60.0 17. The method according to any of items 11-16, which is distinguished by the fact that the first mixture of powders is granulated to obtain granules with a size of 0.4 by passing between calibrated rolls of 2.0 mm, the granules are mixed with the second mixture of powder-rolled state. pulley, which additionally contains molybdenum disulfide, 18. The method according to any of items 10-16, which is characterized by - an inorganic boron compound that does not contain oxygen and is formed by the fact that the charge is formed by rolling - an oxygen-containing boron compound with the following co- ration in dosed portions between rolling rolls - the ratio of components, wt.Uo: state. ferrophosphorus 0.65-5.52 19. The method according to p. 18, which differs in that the carbon fiber 0.65-15.31 charge is sintered at a temperature of 830-11002С in se-iron 14.36-26.79 rows of protective gas graphite 0.21-5.26 20. Element of the friction node, which includes a supporting hexagonal boron nitride 0.1-5.0 element with an anti-friction material containing nickel 0.2-10.0 fullerene, which is distinguished by the fact that the anti-friction - fine-dispersed diamonds UDA 0.01-5.0 cationic fullerene-containing material in addition, an inorganic boron compound that does not contain molybdenum disulfide, an inorganic compound containing oxygen 0.005-3.4 boron that does not contain oxygen and an oxygen-containing compound molybdenum disulfide 0.5 -5.0 boron with the following content in the material, wt. o: oxygen-containing boron compound 0.5-3.4 inorganic boron compound, copper or its alloys the rest, which does not contain oxygen 0.005-3.4 at the ratio of components, wt.Uo: molybdenum disulfide 0.5-5.0 granules 2 ,0-24.0 oxygen-containing boron compound 0.5-3.4. shungite 0.01-22.0 21. Friction unit element according to p. 20, which distinguishes the second mixture of powders from the rest. is due to the fact that the supporting element has a thickness of 1-15. The method of obtaining anti-friction material is 250 mm. according to p. 10, which differs in that from components 22. The element of the friction unit according to p. 20, which is distinguished by preparing two mixtures, and the first mixture is taken in that the thickness of the layer of antifriction powders, wt.Uo: material is 0, 7-25 mm.

The invention relates to the anti-friction method of powder metallurgy, which is used in the material, the method of its production and the element of the machine-building assembly in the elements of the friction assembly of various frictions, made using anti-friction machines, mechanisms and equipment, operated material. A more detailed invention relates to high speeds. to antifriction materials obtained by

The analysis of scientific and technical information showed that granules containing copper and graphite, while the following, despite the large number of antifriction components, mass. Uo: these materials, there are no powder materials for ferrophosphorus 0.50-5.40 bearings of various machines, mechanisms and equipment - carbon fiber 0.50-15.00, which work in extremely difficult conditions, with iron 10.91 -26.25 with wet loads, at high speeds graphite 0.16-5.16 slip. This is due to the extremely low value of the P"M product of these materials, where copper or its alloys are the rest.

P - specific load in kg/cm', and M - speed. At the same time, the granules have a size of 0.4-2.0 mm sliding in m/s. with the following ratio of components in the body

Normal operation of anti-friction granules, wt. 9o: materials in bearings operating at high copper 37.0-60.0 loads and high sliding speeds without remaining graphite. their heating, possible in the case of a low coefficient. The disadvantage of the described material, the method of its friction, the value of which is less than 0.01, high wear and element of the friction node, obtained from the stability of the mating surfaces, and the high use of this material, is increased mechanical strength . heating the bearings to a temperature of 90 "С at

According to the patent of Ukraine No. 47235 dated 17.05.2003, the load R-Vkg/cm", the speed of sliding is described anti-friction material of the friction unit M-2m/s and the product R"m-16bkg"m/cm" "s method of obtaining antifriction material in The closest solution is known from (patent in the form of sintered powders of ferrophosphorus, iron, Russian Federation Mo2216553 dated 20.04.2003), graphite and copper with localized inclusions of granules, which describes an antifriction polymer manul containing copper and graphite, with the following content, the material is made of a composition containing polythene components in the material, wt.Uo: trafluoroethylene and a carbon-containing additive, and ferrophosphorus 0.5-5.4, the composition contains as a carbon-containing additive 1- iron 10, 91-26.25 1095 from the mass of the composition of fullerene graphite powder 0.16-5.16 carbon black or fullerene carbon black powder after extraction 2.0-24.0 granules from the composition of fullerenes containing up to 50905 from the remaining copper. initial content fullerenes

At the same time, the granules have a size of 0.4-1.6 mm. The disadvantage of the described material is low pra- with the following ratio, this ability in conditions of complete absence of lubricant, and components in the body of the granules, wt.Oo: also at high temperatures. copper 37.0-60.0 The task is the basis of the invention, the rest is graphite. to create an anti-friction carbon fiber mat-

The disadvantage of the described material, its rial method in the form of sintered powders of ferrophosphorus and the element of the friction node obtained from EezR, iron, graphite. copper, hexagonal nitride, using this material, boron, nickel, fine-dispersed diamonds (under the fine-heating of bearings to a temperature of 907C with python-dispersed diamonds, it should be considered ultra-smoke load P-bkg/cm", the sliding speed of UDA sparse diamonds) , shungite, copper or its alloys and

M-1, Am/s and the product RUM-8, Akg"m/cm"s. fibers or threads of carbon and molybdenum disulfide

RF patent No. 2088682 describes copper, an inorganic boron compound that does not contain graphite composite material and the method of its oxygenation, and an oxygen-containing boron compound, with localized production in the form of sintered powders with inclusions of granules containing copper and carbide metals of the IM-MI groups (titanium, zirconium, hafnium, graphite, by selecting the ratio of the above-mentioned bevanadium, niobium, tantalum, chromium, molybdenum and tungsten components, which allows to obtain a frame), copper or its alloys, pyrocarbon, short anti-friction carbon fiber material , which is made of carbon fibers no longer than 5 mm and has a low coefficient of friction K - less than 8 μm in diameter, with the following component content - 0.01 does not heat up at a specific load of P - ts in the material, wt. 9o; 15Bkg/cm, sliding speed M-15/s and the product of metal carbides of im-mi groups 15.0-60 rem-225Kg"m/cm s. pyrocarbon 20.6-22 Another task of the invention is to create composite carbon fibers 0, 1-4.2 of the production of antifriction fullerene-containing copper or its alloys of the rest of the material and the above-mentioned characteristics

The disadvantage of the described material is a high 90 cm. content of one of the metal carbides of the IM-MI groups, which is another task of the invention is the creation of increased wear of the surfaces that connect the element of the friction unit, which includes the carrier oil, their low stability and increased operation with a baked layer of antifriction full costs. rhenium-containing material, which has a high

According to the patent of Ukraine Mo 61751 dated 15.11.200bg. ability to self-lubricate, when working without mass (Anti-friction material. ROMANIT-VVL)), experienced, mechanical strength, wear resistance, low anti-friction material and its method with a high coefficient of friction and ensures formation on melting in the form of sintered powders ferrophos - the surface of the material of the separating films and graphite and iron, graphite, copper or its alloys and oil fibers at these temperatures, which prevent carbon filaments from burning or carbon filaments with localized inclusions of the contacting steam.

The task is solved by the fact that an- material. An increase in the content of boron in the material, the frictional fullerene-containing material contains more than 3.4 wt. 9Uo does not lead to further copper molybdenum disulfide, an inorganic boron compound, material value. which does not contain oxygen, and an oxygen-containing compound of boron. An oxygen-containing compound of boron is introduced into the form of the following content in the material, wt.Uo: di orthoboric acid, which, when heated, decomposes into water and boron oxide. Water is removed, and oxygen 0.005-3.4 boron oxide melts and evenly covers molybdenum disulfide 0.5-5.0 molybdenum disulfide powder, protecting it oxygen-containing boron compound 0.5-3.4. under decomposition into sulfur and pure molybdenum at

Fullerenes can be introduced in the form of minerals at high sintering temperatures. lu shungite or fullerene carbon black. It was experimentally established that already at

In this invention, the term "fullerenes" refers to the content of boron oxide in the material O.5wt.9o. laying It was experimentally established that at

It was experimentally established that when the content of boron oxide in the material is increased by more than a day, a free amount of boron oxide remains in the composition of the shungite material in the amount of 3,000,000

O.01ws.9o improves antifrictions - which does not participate in the process of improving the disultic properties of the material. Experimental feed of molybdenum. it was established that when the content of inorganic boron compound, which does not contain kishungite in the material increases to 22 wt.%, a significant polypsin occurs, and the oxygen-containing boron compound is used to improve the antifriction properties of the material. elements that coat molybdenum disulfide when

When introducing into the shungite material more than 22 wt. Uo kanni. there is a sharp weakening of the strength of the material. At the same time, the anti-friction material has a significant deterioration of its anti-friction properties. ferrophosphorus 0.5-5.4

Since the introduction of shungite more than 22 wt.Uo carbon fiber 0.5-15.0 leads to the deterioration of anti-friction properties and iron 10.91-26.25 to the weakening of the strength of the material, then for more graphite 0.16-5.16 significant improvement of anti-friction properties properties - granules 2.0-24.0 of that material, it was decided to additionally introduce hexagonal boron nitride 0.1-5.0 molybdenum disulfide, as well as inorganic nickel 0.2-10.0 a boron compound that does not contain oxygen, and oxygen-containing finely dispersed diamonds and 0.01-5.0 boron compound. shungite 0.01-22.0

The introduction of disulfide into the antifriction material is an inorganic compound of boron, which is not fidu molybdenum due to the properties of this material contains oxygen 0.005-3.4. Molybdenum disulfide significantly reduces the friction coefficient, increases the maximum permissible oxygen-containing boron compound 0.5-3.4 pressure, increases the maximum permissible speed of copper or its alloys, the rest, increases the permissible value of the product P "M and with it, the granules have a size of 0.4-2.0 mm, while the river increases the anti-friction properties of the material - the following ratio of components in the body of the grail. A mixture of an inorganic boron compound that does not mix, wt. boron compounds are used - copper 37.0-60.0 per as an element, plating molybdenum disulfide graphite the rest. during sintering and prevents its decomposition. Also, the antifriction material can have

It was experimentally established that already with the following composition by mass.

O.5Bmas.9uo significant improvement of anti- carbon fiber 0.5-15.0 frictional properties of the material. It was experimentally established that when the content of molybdenum disulfide material in graphite 0.16-5.16 increases to 5wt.7o, there is a sharp increase in anti-friction properties - hexagonal boron nitride 0.1-5.0 parts of the material. When introducing into the material disunickel 0.2-10.0 molybdenum sulfide more than B5ws.9Uo, finely dispersed diamonds of 0.01-5.0 are observed, a sharp weakening of the strength of the material and a significant fullerene carbon black 0.01-22.0 decrease in its antifriction properties . an inorganic boron compound that is not

An inorganic boron compound that does not contain oxygen contains 0.005-3.4 sen, is introduced in the form of boron carbide, which releases pure boron when heated. Boron, an oxygen-containing boron compound of 0.5-3.4 sia from boron carbide, diffuses into the metal base, copper or its alloys and the rest, thereby strengthening the material. at the same time, the granules have a size of 0.4-2.0 mm

It was experimentally established that already at the following ratio of components in the body of gram, the content of boron in the material is О.005 wt.Uo, zero, wt.Uo occurs: noticeable strengthening of the material. Experimentally, copper 37.0-60.0 has been established that when the content of graphite in the material increases, the rest. of boron to 3.4 wt.9o, a sharp strengthening occurs

Also, the anti-friction material can have a material that includes mixing to obtain the following composition by mass. material is added, molybdenum-iron disulfide 10.91-26.25 den, an inorganic boron compound and oxygen-containing graphite 0.16-5.16 boron compound at the following content in the material, granules 2.0-24.0 wt. Uoy: hexagonal boron nitride 0.1-5.0 inorganic boron compound, not containing nickel 0.2-10.0 oxygen 0.0050-3.4 inorganic boron compound not containing molybdenum disulfide 0.5-5.0 oxygen 0.005-3.4 oxygen-containing boron compound 0.5-3.4. shungite 0.01-22.0 When implementing the method of obtaining anti-friction molybdenum disulfide 0.5-5.0 cationic material, the first mixture of powders at oxygen-containing boron compound 0.5-3.4 step ratio of components, wt.Uo. copper or its alloys, the rest, copper powder 37.0-60.0, while the granules have a size of 0.4-2.0 mm, with graphite powder, the rest has the following ratio of components in the body of the granule - granulate to obtain granules of zero size, wt.Uo: 0 ,4-2.0mm, the granules are mixed with a second mixture of copper 37.0-60.0 powders, which additionally contains molybdenum disulfide and the rest graphite. dene, an inorganic boron compound that does not contain

Also, the antifriction material can have sulfur and an oxygen-containing boron compound, with the following composition by weight: ratio of components, weight: ferrophosphorus 0.5-5.4 ferrophosphorus 0.65-5.52 carbon fiber 0.5 -15.0 carbon fiber 0.65-15.31 iron 10.91-6.25 iron 14.36-26.79 graphite 0.16-5.16 graphite 0.21-5.26 granules 2.0- 24.0 hexagonal boron nitride 0.1-5.0 hexagonal boron nitride 0.1-5.0 nickel 0.2-10.0 nickel 0.2-10.0 finely dispersed diamonds uda 0.01-5.0 inorganic boron compound that is not inorganic boron compound that does not contain oxygen 0.005-3.4 contains oxygen 0.005-3.4 shungite 0.01-22.0 molybdenum disulfide 0.5-5.0 molybdenum disulfide 0.5-5, 0 oxygen-containing boron compound 0.5-3.4 oxygen-containing boron compound 0.5-3.4 copper or its alloys the rest, copper or its alloys the rest, in the ratio of components, wt.Uo: in this case, the granules have a size of 0.4- 2.0 mm with granules 2.0-24.0 the following ratio of components in the body - grashungite 0.01-22.0 nil, wt.Uo: the second mixture of powders, the rest.

COPPER 37.0-60.0 Shungite is injected together with granules, while

GRAPHITE the rest. the total content of shungite and granules does not exceed

Antifriction material can also be ground on 24 mass. foot composition mass.9ov.: Also, the implementation of the method of obtaining anti-friction material can be carried out as follows: iron 10.91-26.25 nom: graphite 0.16-5.16 the first mixture of powders that contains, wt.9o: granules 2.0-24.0 copper powder 37.0-60.0 hexagonal boron nitride 0.1-5.0 graphite powder the rest, nickel 0.2-10.0 granulate and obtain granules the size finely dispersed diamonds of 0.01-5.0 0.4-2.00 mm, granules are mixed with a second mixture of shungite 0.01-22.0 powders, which additionally contains molybdenum disulfide - an inorganic boron compound that is not given, an inorganic boron compound , which does not contain oxygen, contains 0.005-3.4 oxygen, and an oxygen-containing boron compound, with the following molybdenum disulfide 00.5-5.0 ratio of components, wt. o: oxygen-containing boron compound 0.5-3.4 ferrophosphorus 0.65-5.52 copper or its alloys, the rest, carbon fiber 0.65-15.31, while the granules have a size of 0.4-2.0 mm with iron 14 ,36-2.79 in the following ratio of components in the body of graphite - graphite 0.21-5.26 nil, wt.Uo: hexagonal boron nitride 0.1-5.0 copper 37.0-60.0 nickel 0.2- 10.0 graphite rest. finely dispersed diamonds of 0.01-5.0

Shungite is introduced together with granules! compatible inorganic compound of boron, which does not mix; the content of shungite and granules should not exceed the oxygen content of 0.005-3.4 24 wt. molybdenum disulfide 0.5-5.0

Another task is solved by the fact that the method of oxygen-containing boron compound 0.5-3.4 obtaining antifriction fullerene-containing copper or its alloys rest,

at the ratio of components, wt.Uo Shungite is introduced together with granules, while granules 2.0-24.0 the total content of shungite and granules does not exceed fullerene carbon black 0.01-22.0 24 wt.Uo second mixture of powders the rest. Also, the implementation of the method of obtaining antifreeze

Also, the implementation of the method of obtaining anti-friction material can be carried out as follows: nom: the first mixture of powders that are kneaded, wt. Uo: the first mixture of powders containing, wt. 9Uo: copper powder 37.0- 60.0 copper powder 37.0-60.0 graphite powder the rest, graphite powder the rest, granulate and obtain granules with a size of 0.4-2.00mm, granules are simulated with a second mixture of 0.4-2.0mm , the granules are mixed with a second mixture of powders, which additionally contains molybdenum disulfide; powders, which additionally contain molybdenum disulfide, an inorganic boron compound that does not contain kydene, an inorganic boron compound that does not contain oxygen, and an oxygen-containing boron compound , with the following sen, and oxygen-containing boron compound, with the following ratio of components, wt. o: ratios of components, wt.Uo: ferrophosphorus 0.65-5.52 ferrophosphorus 0.65-5.52 iron 14.36-26.79 carbon fiber 0.65-15.31 graphite 0.21-5.26 iron 14.36-26.79 hexagonal boron nitride 0.1-5.0 graphite 0.21-5.26 nickel 0.2-10.0 hexagonal boron nitrile 0.1-5.0 finely dispersed diamonds udl 0.01 -5.0 nickel 0.2-10.0 inorganic boron compound that contains finely dispersed diamonds and uda 0.01-5.0 does not contain oxygen 0.005-3.4 inorganic boron compound that is not molybdenum disulfide 0.5-5.0 contains oxygen 0.005-3.4 oxygen-containing boron compound 0.5-3.4 molybdenum disulfide 0.5-5.0 copper or its alloys the rest, oxygen-containing boron compound 0.5-3.4 with a ratio of components by weight of 9o:

The rest of copper or its alloys, granules 2.0-24.0 at the ratio of components, wt. o" shungite 0.01-22.0 granules 2.0-24.0 the second mixture of powders the rest. shungite 0.01-22.0 Shungite is fired together with the granules, while the second mixture of powders is the rest. the general knows how to shunt and granules does not exceed

Shungite is introduced together with the granules, while 24 mass units and the resulting charge are formed, for example, the total content of the shunt and granules does not exceed by rolling in dosed portions between 24 mass units. rolling mill rolls on steel sheet and

Also, the implementation of the method of obtaining antifreeze. The second mixture of powders additionally contains disunom: molybdenum sulfide, an inorganic boron compound, then not the first mixture of powders containing, wt. 9Uo. The second mixture of oxygen powders and oxygen-containing copper powder 37.0-60.0 boron arc. An inorganic compound of boron is introduced into the remaining graphite powder, in the form of boron carbide. The oxygen-containing boron compound is granulated to obtain cast-size granules in the form of orthoboric acid. A mixture of inorganic 0.4-2.00 mm, granules are mixed with a second mixture of boron compound and oxygen-containing boron compound of powders, which additionally contains molybdenum disulfide, used as an element, plating dene disulfide, an inorganic boron compound that does not contain chymolybdenum sintering The components of the second mixture, and sene, and an oxygen-containing compound of boron, followed by borated molybdenum disulfide, are loaded in the ratio of components, wt.Uo: into the mixer, and dry mixing is carried out. Then ferrophosphorus 0.65-5.52 a humidifier is added to the mixer and carbon fiber 0.65-15.31 wet mixing is carried out. iron 14.36-26.79 It is expedient to carry out sintering of the charge at graphite 0.21-5.26 at a temperature of 830-11007C in a protective environment of hexagonal boron nitride 0.1-5.0 gas. nickel 0.2-10.0 Another task is solved by the fact that the ele- fine-dispersed diamonds of uda 0.01-5.0 ment of the friction node, includes a carrier element with nano- an inorganic boron compound that is not baked layer of fullerene-containing antifriction- contains oxygen 0.005-3.4 of the material, while anti-friction molybdenum disulfide 0.5-5.0 the material contains molybdenum disulfide, an inorganic oxygen-containing boron compound 0.5-3.4 well a boron compound that does not contain oxygen, and oxygen-copper or its alloys, the rest, a local boron compound with the following content in the material in the ratio of components, wt.Uo: rials, wt.Uo: granules 2.0-24.0 inorganic boron compound that is not mishungite 0.01-22 0.0 oxygen 0.005-3.4 second mixture of rest powders. molybdenum disulfide 0.5-5.0 oxygen-containing boron compound 0.5-3.4.

The bearing element is mainly made of low-oxygen boron compound 1.7 carbon steel and has a thickness of 1-250 mm. shungite 17.0

The most preferred thickness of the antifreeze layer is copper or its alloys, the rest. cationic material is 0.7-25 mm. It was experimentally established that at

The effect of the content of molybdenum disulfide, boron, and such a composition of the antifriction material is achieved by boron oxide on the properties of the material is sufficiently illustrated by the following examples: Experimental-

Example 1. but it was established that this content of inorganic

The properties of an antifriction boron compound and an oxygen-containing boron compound full of material with the following composition, wt.9Uo: to a certain extent, provide strengthening of the material, as well as ferrophosphorus 0.5 protection of molybdenum disulfide from decomposition into carbon fiber 0.5 sulfur and pure molybdenum. In addition, anti-friction iron 10.91 material with the specified composition of components completely graphite 0.16 meets all the requirements for anti-friction granules 2.0 materials, i.e. it has a high ability to self-lubricate hexagonal boron nitride 0.1 at high temperatures, high mechanical nickel 0.2 good strength, wear resistance, low coefficient of fine-dispersed diamonds and 0.01 friction, and also ensures the formation on the surface of an inorganic boron compound 0.005 material of thick separating films of graphite and molybdenum disulfide 0.5 la mass, which prevent wear of the contacting couples oxygen-containing boron compound 0.5 Example 3. shungite 22.0 Antifriction properties were studied

Copper or its alloys, the rest. material, what is the mass of the following composition, mass.9o:

It was experimentally established that with ferrophosphorus 4.0 this composition of the antifriction material, carbon fiber 10.0 can sufficiently increase the antifriction properties of the material. Expegraphite 1.0 rimentally it was also established that the specified amount of molybdenum disulfide g is minimal, hexagonal boron nitride 1.0 because the introduction of a smaller amount of nickel 3.0 molybdenum disulfide into the material does not have a noticeable effect on finely dispersed diamonds uda 5, 0 pa anti-friction properties of the material. It was also found that the introduction of an inorganic boron compound into the antifriction molybdenum disulfide 5.0 material in this polyoxygen-containing boron compound 3.4 is minimal, since the introduction of an inorganic compound into the antifriction shungite 2.0 material boron in men- copper or its alloys, the rest. the amount of which does not have a noticeable effect on It was experimentally established that with the properties of the material. It was also established that such a composition of the antifriction material will allow the introduction of oxygen into the antifriction material to a sufficient extent to ensure the increase of the antifriction compound of boron in the given amount of the minimal properties of the material. Experimentally, since it was introduced into the antifriction material, it was also established that the specified amount of oxygen-containing boron compound in a smaller amount of molybdenum disulfide is maximum, because it prevents the decomposition of molybdenum disulfide into disulfur and pure molybdenum when a larger amount of disulfur is introduced into the material. In general, the anti-friction fidu of molybdenum is observed to have a sharp weakening material with the indicated combination of components of the integrity of the material and a significant decrease in its anti-com meets all the requirements for anti-friction frictional properties. It was also established that the introduction of an anti-friction material is not lubricated at high temperatures, a high mechanical boron compound in a given amount has a high mechanical strength, wear resistance, and a low coefficient of friction. - friction, and also ensures the formation of boron in a larger amount on the surface material, making the material of thick separation films of graphite and the material less strong. It was also found that oil that prevents wear of the contact pair. introducing oxygen into the antifriction material

Example 2. of a boron compound in a given quantity is the maximum,

The antifriction properties were studied because when the material with the following composition, mass.Uo: oxygen-containing boron compound in a larger amount of ferrophosphorus 2.5 is introduced into the antifriction material, a free amount of boron oxide remains, which is not a carbon fiber 5.0 and takes part in the process of boronation of disulfide of moles - iron 20.0 bdenu In general, the anti-friction material with the specified graphite 1.0 by this combination of components satisfies the granules 7.0 all the requirements for anti-friction materials, i.e. hexagonal boron nitride 1.0 has a high ability to self-lubricate at high-nickel 2, 0 at low temperatures, high mechanical strength, finely dispersed diamonds and 1.0 stability, low friction coefficient, as well as an inorganic boron compound 1.7 ensures the formation of thick molybdenum disulfide 2.5 separating films of graphite and oil on the surface of the material, which prevents wear of the contact steam due to increased viscosity, increased wear resistance. sty, a low coefficient of friction, which is able

The invention makes it possible to create an anti-friction resistant material without a significant increase in temperature, the method of its production and the element of the tour node in the friction zone, the specific load of friction with a baked layer of anti-friction material - R-15Kki/cm", the sliding speed M-15m/s and the product of rial , which has increased mechanical strength - р'U-225Kkg"mM/cm s.

Computer typesetting by N. Lysenko Signature Circulation 28 approx.

Ministry of Education and Science of Ukraine

State Department of Intellectual Property, str. Urytskogo, 45, Kyiv, MSP, 03680, Ukraine

SE "Ukrainian Institute of Industrial Property", str. Glazunova, 1, Kyiv - 42, 01601

Claims (1)

(51) IPC (2009) Ko p22s 1/04 MIU C22S 1/05 6226 1/10 B22E 71/00 E16S 33/04 MINISTRY OF EDUCATION AND SCIENCE OF UKRAINE STATE DEPARTMENT OF INTELLECTUAL PROPERTY FOR THE PATENT OF THE INVENTION shoooo! ИІОГЩНИАЛТТЬООЬТТООООООООООТЬТИТИТИТИТИТИТИТИТИТИТЬТЬТЬТЬТЬТЬТЬТЬТЬТЬТЬТЬТЬНИЬТНЬНЬНЬТНЬНЬЬЬИЬИЬЬЙЬЬИКИЬКИЬЬКЬЬКЬЩНЬКЬІХКХКХИХЬХКХКХИХХХККНКИИОХТИНТТЬТЬТЬТНИИХИХИТЬТЬТНТЬТЬТНХШХШИХШИТИНЕИНЬ У ШИЛІИІИПБІІЮЯВОСТИТЯХТИТТНТИИТИТИТИТТЬТИТИТИНТИТНИТИТЬИТИНИТИТИНИИТИИИНННИЯ (54) АНТИФРИКЦІЙНИЙ МАТЕРІАЛ РОМАНІТ-УВЛШДМБ, СПОСІБ ЙОГО ОДЕРЖАННЯ І ЕЛЕМЕНТ ВУ- ЗЛА ТЕРТЯ 1 2 (21) а200708310 шунгіт 0,01-22,0 (22) 20.07.2007 неорганічна сполука бору, що (24) 27.04 .2009 does not contain oxygen 0.005-3.4 (46) 04/27/2009, Byul.Mo 8, 2009 molybdenum disulfide 0.5-5.0 (72) ROMANOV SERHIY MYKHAYLOVYCH, OA, RO- oxygen-containing boron compound 0, 5-3.4 MANOV DMYTRO SERGIYOVYCH, OA copper or its alloys the rest, (73) ROMANOV SERGIY MYKHAYLOVYCH, OA, RO- while the granules have a size of 0.4-2.0 mm with MANOV DMYTRO SERGIYOVYCH, OD the following ratio of components in the body game- (56) Z!) 1637292, 27.02.1996, A1 zero, wt. 9o: Ky 2216553, 20.04.2003, C2 copper 37.0-60.0 Ky 94011997, 20.12.1995, A1 graphite rest. KO 2268291, 20.01.2006, C1 5. Antifriction material according to claim 3, which differs KO 2168662, 10.06.2001, C1 in that it has the following composition, wt. 9o: CM 1332270, 23.01.2002, A ferrophosphorus 0, 5-5.4 (57) 1. Anti-friction material containing carbon fiber 0.5-15.0 C lerene, which is distinguished by the fact that it additionally contains an inorganic compound boron, which does not contain graphite 0.16-5.16-sen, molybdenum disulfide and an oxygen-containing compound of granules 2.0-24.0 ma boron with the following content in the material, wt. 9o: hexagonal boron nitride 0.1- 5.0 inorganic boron compound that is not mini-nickel 0.2-10.0 oxygen 0.005-3.4 finely dispersed diamonds UDA 0.01-5.0 b molybdenum disulfide 0.5-5.0 fullerene carbon black 0. 01-22.0 b oxygen-containing boron compound 0.5-3.4. an inorganic compound of boron that is not chi 2. Antifriction material according to claim 1, which is distinguished by containing 0.005-3.4% oxygen in the form of an inorganic boron compound, molybdenum disulfide 0.5-5.0%, and does not contain oxygen in the form of boron carbide, but - oxygen-containing boron compound 0.5-3.4 ra boron-containing compound in the form of orthoboric acid - copper or its alloys, the rest, - lots. at the same time, the granules have a size of 0.4-2.0 mm at 3. The anti-friction material according to claim 1 or claim 2, which has the following ratio of components in the body of the gra- differs in that it contains fullerenes in the form of zero, wt. 9o: shungite or fullerene carbon black. copper 37.0-60.0 " 4. Antifriction material according to any of claims 1-3, graphite the rest. in which differs in that it has the following composition, b. Antifriction material according to one of claims 1-3, dp wt. 90: which differs in that it has the following composition, i.e. ferrophosphorus 0.5-5.4 wt. 90: carbon fiber 0.5-15.0 ferrophosphorus 0, 5-5.4 iron 10.91-26.25 carbon fiber 0.5-15.0 graphite 0.16-5.16 iron 10.91-26.25 pellets 2.0-24.0 graphite 0.16 -5.16 hexagonal boron nitride 0.1-5.0 granules 2.0-24.0 nickel 0.2-10.0 hexagonal boron nitride 0.1-5.0 finely dispersed diamonds UDA 0.01-5.0 nickel 0.2-10.0 shungite 0.01-22.0 boron compound with the following content in the material, inorganic boron compound, which by mass.Uo: does not contain oxygen 0.005-3.4 inorganic boron compound, molybdenum disulfide 0.5 -5.0 oxygen-free 0.005-3.4 oxygen-containing boron compound 0.5-3.4 molybdenum disulfide 0.5-5.0 copper or its alloys the rest, oxygen-containing boron compound 0.5-3.4. at the same time, the granules have a size of 0.4-2.0 mm at 11. The method of obtaining the antifriction material according to the following ratio of components in the body of the slurry of claim 10, which differs in that from the components nul, wt.Uo: prepare two mixtures, and take the first a mixture of copper 37.0-60.0 powders, containing, wt. 9o: graphite, the rest. copper powder 37.0-60.0 7. The antifriction material according to one of claims 1-3, the remaining graphite powder, which differs in that it has the following composition, is granulated to obtain granules with a size of 0.4- wt.Uo: 2.00 mm, the granules are mixed with a second mixture of poro-ferrophosphorus 0.5-5.4 pulleys, which additionally contains molybdenum disulfide, carbon fiber 0.5-15.0, an inorganic boron compound that does not contain oxygen and iron 10.91-26.25 oxygen-containing boron compound, with the following co-graphite 0.16-5.16 ratio of components, wt. 9o: granules 2.0-24.0 ferrophosphorus 0.65-5.52 hexagonal boron nitride 0 .1-5.0 carbon fiber 0.65-15.31 nickel 0.2-10.0 iron 14.36-26.79 finely dispersed diamonds UDA 0.01-5.0 graphite 0.21-5.26 inorganic boron compound that is not hexagonal boron nitride 0.1-5.0 contains oxygen 0.005-3.4 nickel 0.2-10.0 shungite 0.01-22.0 finely dispersed diamonds UDA 0.01-5.0 molybdenum disulfide 0.5-5.0 inorganic boron compound that contains oxygen boron compound 0.5-3.4 does not contain oxygen 0.005-3.4 copper or its alloys the rest, molybdenum disulfide 0.5-5.0 while the granules have the size 0.4-2.0 mm with an oxygen-containing boron compound 0.5-3.4 in the following ratio of components in the body of the mass or its alloys, the rest, nil, mass 9o: in the ratio of components, wt.Uo: copper 37.0-60.0 granules 2.0-24.0 graphite the rest. shungite 0.01-22.0 8. Anti-friction material according to one of claims 1-3, the second mixture of the remaining powders. which differs in that it has the following composition, 12. The method of obtaining an antifriction material by mass: according to claim 10, which differs in that two mixtures are prepared from the components of ferrophosphorus 0.5-5.4, and the first mixture is iron 10.91 -26.25 powders, wt.9o: graphite 0.16-5.16 copper powder 37.0-60.0 granules 2.0-24.0 graphite powder the rest, hexagonal boron nitride 0.1-5.0 granulate with the production of granules of size 0.4-nickel 0.2-10.0 2.0 mm, the granules are mixed with the second mixture of fine-dispersed diamonds UDA 0.01-5.0 sheaves, which additionally contains molybdenum disulfide, shungite 0.01- 22.0 inorganic boron compound that does not contain oxygen and inorganic boron compound that does not contain oxygen boron compound with the following co-contains oxygen 0.005-3.4 ratio of components, wt. 9o: molybdenum disulfide 0.5-5.0 ferrophosphorus 0 .65-5.52 oxygen-containing boron compound 0.5-3.4 carbon fiber 0.65-15.31 copper or its alloys the rest, iron 14.36-26.79 while the granules have a size of 0.4-2, 0mm with graphite 0.21-5.26 next ratios of components in the body: hexagonal boron nitride 0.1-5.0 nil, wt. 9o: nickel 0.2-10.0 copper 37.0-60.0 finely dispersed diamonds UDA 0.01-5.0 graphite the rest . an inorganic compound of boron that 9. The antifriction material according to any of claim 4, does not contain oxygen 0.005-3.4 pp, claim 7 or claim 8, which differs in that molybdenum disulphide 0.5-5.0% content of shungite and of granules is no more than an oxygen-containing boron compound of 0.5-3.4 24 wt. copper or its alloys the rest, 10. The method of obtaining antifriction material, with the ratio of components, mass. o: containing fullerene, which includes mixing the granules 2.0-24.0 to obtain a ready charge and sintering the components of fullerene carbon black 0.01-22.0 antifriction material, which differs from the second mixture of powders of the rest. in that an inorganic boron compound is added to the components of the antifriction material 13. The method of production of the antifriction material, which does not belong to claim 10, which differs in that two mixtures are prepared from the components containing oxygen, molybdenum disulfide and oxygen-containing, and the first mixture is taken