RU2676340C1 - Nipple-coupling threaded connection with thermodiffusion zinc coating - Google Patents

Abstract

FIELD: manufacturing technology.SUBSTANCE: invention relates to threaded connections of pipes and pipe products operating in difficult operating conditions, and can be used in the oil and gas industry to transport corrosive media. In the method, the "nipple-coupling" threaded connection, in which the threaded surface of the coupling is made with a thermal diffusion zinc coating comprising a delta phase iron-zinc layer, the delta phase iron-zinc layer is 10÷55 mcm thick, while the concentration gradient of zinc in the thickness of the delta-phase layer is 0.06÷0.08 wt. %/mcm.EFFECT: improving the wear resistance and performance of the threaded connection by ensuring minimal wear and eliminating the formation of scuffing of the threaded surfaces of the nipple and coupling as a result of repeated screwing and unscrewing.1 cl, 1 tbl

Description

The invention relates to threaded joints "nipple-sleeve with thermal diffusion zinc coating" of pipes and pipe products operating in difficult operating conditions, and can be used in the oil and gas industry for pumping aggressive media, in mining, construction and other industries.

The operability of the threaded nipple-clutch joint operating in difficult operating conditions is characterized by the number of screwing-unscrewing cycles that ensure stable operation. To increase the service life of the threaded connection, at least one of the mating threaded surfaces is made with a thermal diffusion zinc coating. The most cost-effective is the application of thermal diffusion zinc coating only on the coupling.

A known coupling, the threaded surface of which is made with thermodiffusion zinc coating with a thickness of 31 ÷ 60 μm, the deviation of which from the average value of the coating thickness on the threaded surface does not exceed 20% (RF patent No. 2383413, B22F 1/02, С23С 10/36, Е21В 17/02, publ. 10.03.2010).

The disadvantage of the proposed solution is the increased wear of the threaded connection, characterized by the appearance of scoring, with multiple cycles of "screwing-unscrewing" of the threaded connection.

The closest analogue, selected as a prototype, is a threaded connection of tubing (hereinafter - tubing) "nipple coupling with thermodiffusion zinc coating", in which the threaded surface of the coupling is made with thermodiffusion zinc coating (hereinafter - TDC coating), including zinc-zinc layer of the delta phase (Galin R.G., Zakharyevich D.A., Aleksandrov S.V., Demidova O.V., Fominykh M.V. “Hardening zinc coatings for threaded joints”, Journal “Hardening technologies and coatings ”No. 6 (114) June 2014, p. 24-29). In the process of pilot industrial testing of the threaded connection “nipple-coupling with TDC-coating” for “screwing-unscrewing” without the use of thread-sealing lubricant (in dry friction) on the mating surfaces, favorable conditions for “screwing-unscrewing” are created.

However, with repeated repeating of the “screwing-unscrewing” cycles of the threaded joint, the wear products stick to the contacting surfaces, the thread seizing occurs under conditions of dry friction, which reduces the working capacity of the threaded joint of pipes and pipe products.

The technical task of the invention is the development of the threaded connection "nipple-sleeve with thermal diffusion zinc coating", which ensures reliable operation of threaded connections during repeated "screwing-unscrewing" both in dry friction and using thread sealing lubricant.

The technical result consists in increasing the wear resistance and operability of the threaded connection by ensuring minimal wear and eliminating the formation of scoring of the threaded surfaces of the nipple and the coupling with repeated "screwing-unscrewing".

The specified technical result is achieved due to the fact that in the threaded connection "nipple-coupling", in which the threaded surface of the coupling is made with a thermal diffusion zinc coating comprising a zinc-zinc layer of the delta phase, according to the invention, the zinc-zinc layer of the delta phase has a thickness of 10 ÷ 55 μm while the gradient of zinc concentration over the thickness of the layer of the delta phase is 0.06 ÷ 0.08 wt.% / μm.

In the proposed threaded connection, the thermal diffusion zinc coating of the threaded surface of the coupling contains a zinc-zinc layer of the delta phase with a thickness of 10 ÷ 55 μm. Moreover, the concentration gradient of zinc over the thickness of the layer of the delta phase in the range of 0.06 ÷ 0.08 wt.% / Μm leads to smooth changes in the properties of the coating along the thickness of the layer of the delta phase (hardness, wear resistance, adhesion properties, etc.), which provides minimal wear and eliminates the formation of scoring of the threaded surfaces of the nipple and the coupling with repeated "screwing-unscrewing" of the threaded joint both in dry friction and in the presence of thread sealing lubricant.

When the concentration gradient of zinc over the thickness of the layer of the delta phase contained in the thermal diffusion zinc coating of the threaded surface of the coupling is less than 0.06 wt.% / Μm in the threaded connection "nipple-coupling with TDC coating" there is a greater wear of the thread of the nipple compared to wear coupling threads. When the concentration gradient of zinc over the thickness of the layer of the delta phase is more than 0.08 wt.% / Μm, a threaded connection is observed with a significantly smaller number of completed “screwing-unscrewing” cycles. Apparently, with large gradients of zinc concentration in the layer of the delta phase, the formation of areas for the setting of the threaded surfaces of the coupling and the nipple and the subsequent plastic deformation of the thread during the "screwing-unscrewing" of the threaded connection occurs.

Obtaining in production conditions of the zinc-iron layer of the delta phase with a thickness of less than 10 μm and a gradient of zinc concentration over the layer thickness of more than 0.06 wt.% / Μm is technically difficult to implement. When performing the zinc-zinc layer of the delta phase with a thickness of more than 55 μm, the fragility of the thermal diffusion zinc coating on the threaded surface of the coupling increases, which leads to increased wear and a decrease in the working capacity of the joint.

The domestic industry has all the means (materials, equipment and technologies) necessary for the mass production of pipes and pipe products having threaded joints “nipple-coupling with TDC-coated”, made in accordance with the proposed solution, which will provide increased wear resistance and performance of the threaded connection in difficult operating conditions, in particular when equipping oil wells, pumping aggressive media.

To clarify the invention, tests were carried out on samples of the threaded connection of the tubing "nipple coupling with TDC coating."

A thermodiffusion zinc coating was applied to the threaded surface of the couplings with a given gradient of zinc concentration over the thickness of the iron-zinc layer of the delta phase as follows. Pre-cleaned (according to GOST R51163-98) and degreased from coolant residues, the tubing couplings were loaded into a container with modified zinc powder. We used couplings with a diameter of 73 mm from steel grade 32G2 with a triangular thread (according to GOST 633-80), strength group N80. The zinc content of the powder was up to 99 wt.%, A powder was used with a particle size of zinc from 4 μm to 1 mm, having a surface film of zinc oxide on particles from 0.03 to 0.5 μm. A container with couplings and powder was placed in a retort of an electric furnace and heated to a temperature of thermal diffusion galvanization of 430-440 ° C with simultaneous rotation of the retort for uniform deposition of zinc on the surface of the products. Galvanizing was carried out by contact diffusion of zinc from zinc powder onto the metal surface of the product through an oxide film covering particles of zinc powder. The total heating time was 3–3.5 hours. After heating was completed, the retort continued to rotate for 40–60 minutes, after which the container with couplings was removed from the retort, cooled to room temperature, and the galvanized couplings were separated from zinc powder. At the same time, by varying the temperature, duration of heating, and cooling time in predetermined intervals, coatings of various thickness and gradient of zinc concentration over the thickness of the iron-zinc layer of the delta phase were obtained.

The layer-by-layer distribution of zinc on the threaded surface of the couplings was determined on specially made thin sections using a JEOL JSM-6460 LV scanning electron microscope with an energy dispersive spectrometer for chemical microanalysis. The zinc concentration gradient over the thickness of the delta phase layer was determined in the direction from the interface between the delta phase and the gamma phase by calculating the ratio of the difference in the concentration of zinc on the coating surface and the interface between the delta phase and the gamma phase and the thickness of the delta phase.

The tests were carried out on couplings manufactured according to GOST 633-80, with a TDC coating having different thicknesses of the zinc-iron layer of the delta phase on the threaded surface and various gradient of zinc concentration over the thickness of the layer of the delta phase. The test results are shown in the table.

As can be seen from the table, the thread of the coupling is provided with the proposed combination of the thickness of the zinc-iron layer of the delta phase and the gradient of zinc concentration over the thickness of the layer of the delta phase, while the tightness of the coupling does not exceed the permissible deviations and corresponds to GOST 633-80, which allows creating favorable conditions on the contacting surfaces during the “screwing-unscrewing” process both under dry friction conditions and when using thread sealing lubricants, which ensure reliable operation of threaded joints.

The present invention provides increased wear resistance and performance of the threaded connection "nipple-coupling with TDC-coating" by ensuring minimal wear and eliminating the formation of scoring of the threaded surfaces of the nipple and the coupling with repeated "screwing-unscrewing".

Claims (1)

The threaded connection "nipple-coupling", in which the threaded surface of the coupling is made with a thermodiffusion zinc coating, including a zinc-zinc layer of the delta phase, characterized in that the zinc-zinc layer of the delta phase has a thickness of 10 ÷ 55 μm, while the zinc concentration gradient over the layer thickness the delta phase is 0.06 ÷ 0.08 wt.% / μm.