UA69206A - A lubricant for sealing of screw joints - Google Patents

Abstract

A lubricant for sealing of screw joints on the basis of petroleum oils contains a product of saponification of petroleum oils with synthetic fatty acids, vermiculite, rosin, graphite, polytetrafluorinethylene and a mix of petroleum oils. Additionallyit contains triethanolaminetitanate, polytrifluorinechloroethylene and a zinc powder.

Description

Description of the invention

The invention relates to sealing lubricants used for sealing threaded connections of 2 casing, pump-compressor and drill pipes during the construction and operation of oil and gas wells, as well as at pipe plants during the production of threaded pipes and couplings for them.

Features of operation of the threaded connections of the specified pipes are characterized by high pressures (up to 70-80MPa), a wide temperature range (from minus 507"С to plus 120") and the presence of corrosive-active environments.

In these conditions, the sealing grease should provide a high tightness of the connection, protect against corrosion and at the same time should be easily and evenly applied to the thread both in the conditions of pipe factories and in the conditions of the construction of oil and gas wells under the influence of low temperatures. Lubricant should also not flow out of the interthread gap during operation during exposure to high temperatures and pressures. 18 Known lubricant for sealing threaded joints, which has the following composition, wt. 90: lubricant 36 graphite powder 28 lead powder 30.5 zinc dust 12.2 copper flakes 3.3 (Bulletin of the American Petroleum Institute ANI 5A2, September 1960, p. 240). This lubricant meets the requirements for sealing lubricants for threaded joints, but contains a significant amount of harmful lead.

Lubricant for sealing threaded joints is known, which includes petroleum oil, thickened with the product "saponification of petroleum oils with synthetic fatty acids (lithium soap of high molecular weight fatty acids) with antifriction additives, such as zinc whites, lead suric, lead sulfide, and lead powder (TU 38.101706 -78).

However, the use of this lubricant is dangerous for the environment due to the high (more than 50965) lead content. at

A sealing grease for sealing threaded joints is also known, which includes the following components, wt. oo: c product of saponification of petroleum oils with synthetic fatty acids 1-4 b vermiculite 15-25 I«o) rosin 1-4 graphite 10-20 polytetrafluoroethylene 3-0 « diphenylamine 0.15-0.5 zinc dialkyldithiophosphate 5-15 - s a mixture of petroleum oils the rest. ;" " This lubricant is characterized by insufficiently high sealing capabilities, which is caused by its colloidal instability.

The grease contains a significant amount of oil and easily delaminates, releasing it, while the technological (22) properties of the grease deteriorate, it clumps and is unevenly applied to the thread, which leads to a decrease in the tightness of the threaded connection. In addition, the lubricant is characterized by low protective properties. The basis of this invention is the solution to the problem of improving the sealing grease for threaded o 50 joints by changing its composition and the ratio of components, which leads to an increase in its sealing capabilities due to an increase in colloidal stability and an improvement in protective properties. 42) The problem is solved by the fact that the sealing lubricant for threaded joints, which includes the product of saponification of petroleum oils with synthetic fatty acids, vermiculite, rosin, graphite, polytetrafluoroethylene and a mixture of petroleum oils, according to the invention, contains triethanolaminotitanate, zinc powder and polytrifluorochloroethylene at the following ratio of components, wt. 90:

P product of saponification of petroleum oils with synthetic fatty acids 20-40 vermiculite 15-20 rosin 3-5 in graphite 8-12 polytetrafluoroethylene 1.5-3 polytrifluorochloroethylene 1.0-2 triethanolaminotitanate 0.05-0.1 zinc powder 1-10 b a mixture of petroleum oils the rest. -D-

The difference between the proposed lubricant and the lubricant closest to analogues is the introduction into its composition of triethanolaminotitanate, zinc powder and polytrifluorochloroethylene at the indicated ratio of components, obtained experimentally.

The technical result is an increase in the tightness of threaded joints while simultaneously improving the protective properties of the lubricant.

This is due to the fact that the introduction of triethanolaminotitanate increases the colloidal stability of the lubricant due to the coordination effect of titanium on the components of the lubricant, as a result of which there is no delamination of the lubricant, separation of oil - a change in the composition of the lubricant. Thanks to this, the lubricant does not clump, and 7/0 is easily and evenly applied to the surface of the thread.

The addition of polar polytrifluorochlorethylene to the lubricant also contributes to the increase in colloidal stability, which also interacts with the components of the lubricant, enhancing its stability.

The introduction of zinc in the form of powder, on the one hand, increases the protective properties of the lubricant due to its protective properties, and on the other hand, it contributes to the emergence of a synergistic effect in combination with triethanolaminotitanate to stabilize the colloidal stability of the lubricant.

The following raw materials were used for the manufacture of lubricants: the product of saponification of petroleum oils with synthetic fatty acids - Uniol-2 lubricants GOST 23510-79 vermiculite GOST 12565-67 rosin GOST 19113-73 graphite GO-A GOST 8295-73 polytetrafluoroethylene GOST 10007-80E polytrifluorochlorethylene GOST 13744 -68 triethanolaminotitanate MRTU 6-09-74-62 zinc powder guest 3640-79 mixture of petroleum oils: " spindle Au TU 38.101232-89 industrial I-40A guest 20899-88 in a ratio of 3:1. (Se)

To make the lubricant, vermiculite was dried at a temperature of 4007C to a humidity of 290. o

Powders of graphite, vermiculite, rosin, polytetrafluoroethylene, poly-trifluorochloroethylene, and zinc were mixed with water for 1 hour, then triethanolaminotitanate was added and stirred for another hour.

Uniol-2 grease was heated to 50°C, a mixture of petroleum oils was added, and with constant stirring, gradually (22) from 5, the previously obtained mixture of powders and triethnolaminotitanate was added.

After adding the entire amount of the mixture of powders, the mass was stirred at a temperature of 507C for 4 hours until complete homogenization.

Samples of lubricants were obtained with the content of declared components, as well as with those that go beyond the declared limits. Lubricant with the composition of the closest analogues was also produced (Table 1). "- :" p with 1441 55. acids 5

F azhenyul//11111111111111111111111111112113 | 4 15 | 6

Фа 1118109 95 в ю в Полирифторуеритн 11111111 05101015 123

FO otvetnoleminovtanya 10101000 0050 005 00002

F in Poroshzhtsynuu//.71111111111111111111111111111о6 118560 o | о6 vodenyanno 11111111 ova 0 dialkyladithiophoefattsyanu 10000010 uy

Note: 2, 3, 4 - proposed lubricant compositions; 1, 5- compositions, the ratio of components of which exceeds the proposed limits; 6 - composition »

The parameters of manufactured lubricants were determined according to the following indicators: 60 penetration GOST 5346-78 oil separation (colloidal stability) GOST 7142-74 corrosion resistance GOST 9.054-75 (method 3) sealing ability pressure when pressing pipes. 65 The first three indicators were determined in laboratory conditions. The sealing ability was determined by pressing with fixation of the retained pressure of casing pipes of 2146 mm manufactured at OJSC "Vyksun Metallurgical Plant"

in the volume of 40,000 tons. The results of the tests are shown in Table 2.

Table 2. 1 I3|14151110153 3. Corrosion resistance in 595 Mass at 387С, 450 550 | 560 | 570 | 580 260 hours.

A. Sealing ability (pressure at 100 OR 0 5О0О | 450 ) 200 250 pressing), atm. 5. Notes on the delamination of the lubricant, the release of oil and the formation of lumps

Note: 2, 3, 4 - proposed lubricant compositions; 1, 5- compositions, the ratio of components of which exceeds the proposed limits; 6 - the composition of lubricants, which corresponds to the closest analogues.

As can be seen from Table 2, the proposed compositions 2, 3, 4 ensure the tightness of threaded joints while simultaneously increasing the protective properties in comparison with the lubricant (composition Mob), which corresponds to the composition of the 2or lubricant closest to its analogues.

When going beyond the lower limits of the ratio of the proposed components (My composition), the oil separation of the lubricant increases, it becomes stratified - its stability deteriorates, and because it is applied unevenly, gaps are formed in the lubricant layer, the pressure during pressing drops.

When going beyond the upper limits of the ratio of components (Mo5 composition), the penetration of the lubricant increases, it becomes hard, less plastic due to the low oil content - there is a shortness of the pipes and couplings in the threaded connection and, as a result, the pressure during pressing drops. "

Thus, the proposed lubricant provides an increase in tightness by 1.5-2 times while simultaneously improving the protective properties by more than 2 times. (Se)

Claims (1)

The formula of the invention o Lubricant for sealing threaded joints based on petroleum oils, containing the product of saponification of petroleum oils with synthetic fatty acids, vermiculite, rosin, graphite, polytetrafluoroethylene and a mixture of petroleum F) oils, which is distinguished by the fact that it additionally contains triethanolaminotitanate, polytrifluorochloroethylene and zinc so powder with the following ratio of components, wt. 9o: product of saponification of petroleum oils with synthetic fatty acids 20-40 vermiculite 15-20 « rosin 3-5 | - with graphite 8-12 polytetrafluoroethylene 1.5-3 i. i » polytrifluorochloroethylene 1.0-2 triethanolaminotitanate 0.05-0.1 zinc powder 1-10 g zinc b a mixture of petroleum oils the rest. se) from the Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2004, M 8, 15.08.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. 4) 60 b5