Nominal diameter of galvanized pipes GOST 3262 75. Steel water and gas pipes

Supports for pipelines in polyurethane foam insulation

Pipe supports are used to hold elements of trunk networks. They are laid during the installation of pipe lines. They are made of steel of various strength characteristics and corrosion resistance.

Pipeline support prices add up

Wells
Hatches made of cast iron
Stairs for wells
Accessories for wells
Base plates for manholes
rainwater inlets
Cast iron hulls and manhole covers
Gas carpets and accessories
Locking devices for hatches
Other goods
Ductile iron hatches and accessories
Cable cast iron consoles
Wells are structures that are designed to carry out purification, control, testing of external sewage and drainage systems. The main function of such special facilities is the collection and accumulation of wastewater, rainwater, etc. The bottom of such wells is equipped with various trays and grooves for directing drains. Due to these wells, unhindered migration of water into them is ensured. The role of sewer wells in the performance of repair and maintenance work, such as flushing and cleaning the entire system, is very large. Depending on the functions performed, the wells can be the following: storage, inspection, filtering, differential, rotary.

Insulation
rockwool
Paroc
hotpipe
K-flex
Energoflex
Izolin
Currently, there are a large number of pipes that are suitable for residential buildings, industrial, administrative, they supply heat, water, gas, and there are also main gas pipelines with oil products. All of them require reliable protection - thermal insulation, waterproofing, protection from harmful environmental influences, etc. What is it for? In order to extend the service life and quality of service of various pipelines, without which a full life is impossible today. This section presents insulation, which serves as a reliable protection for the pipeline and is made in modern production.

Cranes
Danfoss
Broen Ballomax
The taps serve as a device for regulating the flow of various working media in the pipeline system, at any time they can be opened or closed or the pressure of the supplied fluid can be adjusted, which is very convenient. This design is quite easy to operate and ensures a long service life, because. The chance of breakage is very small and minimal. Cranes are different in their design, in appearance. Used in various systems. Due to its simplicity of design, reliability in operation and durability, this locking device is very popular and is used in many industries - water supply, heating, gas supply, etc.

Pumps
Grundfos
A pump is a device that moves gases or liquids. In these modern conditions, life without pumping equipment is simply impossible to imagine, this is confirmed by the fact that 20% of the world's electricity is used to operate pumping equipment. Pumps are divided into domestic and industrial, depending on the scope of application. Household pumps are used in heating, sewerage and water supply systems, while industrial pumps are used in cooling systems, industrial water supply, water treatment, supply and pumping of liquids that are supplied under high pressure.

Zilmet
reflex
This section presents expansion membrane tanks, which serve as a reservoir for pumps and accumulators. When you choose a tank for a heating system, you need to pay attention to the membrane material, which must be durable and not collapse when exposed to aggressive media and high temperatures. Particular attention should be paid to the working conditions and the main purpose of the expansion tank in the system. The products presented in this section are certified by the most successful companies that specialize in the production of these products.

Fitting
locknuts
Couplings
Elbows
Transitions
Threads
Drives
flanges
Stubs
Tees
Bochata
Welded parts of pipelines
Steel and cast iron pipe fittings have been used for threaded connections of highways and devices since the beginning of the use of a metal pipe to move the working medium, therefore, even in our time, it is all the more difficult to overestimate the importance of these connecting elements. Pipes and fittings have always been the basis of any pipeline, therefore, with the development of technical progress developed technologies and types of steel and cast iron fittings. The price of manufacturing a fitting depends on the materials used, their weight and purpose. A cast-iron fitting is made by casting and installed for branching, turns, pipe transitions to a different diameter, especially in cases where periodic disassembly of connections is necessary. The steel fitting acts more as a welded threaded connector, as well as couplings and locknuts on the spurs, and is produced mainly from a pipe billet on lathes. Most of the hydraulic devices such as heaters, filters, distributors, automatic and control devices, etc. it is impossible to manufacture and connect to the pipeline without the use of a steel and cast iron fitting.

Cast iron pipes (Free Sokol)
Cast iron fittings
In the catalog of our products there are cast-iron styles and pipes VChShG - socket and floor which are made of high-strength nodular cast iron with a nominal diameter of 80, 100, 125, 150, 200, 250, 300, 350, 400, 500, 600, 700, 800, 900, 1000 mm. Ductile iron pipes are made 6 meters long, under a sealing rubber ring, with an external and internal coating that complies with the standards of GOST R ISO 2531, EN 545. Socket pipes with such types of connections as: TYTON, TYTON sewage and RVS (RJ) are on sale. Tyton (Tyton) - socket connection for a sealing ring with a working pressure of 3.0-6.4 MPa; RVS (RJ) - a socket-and-lock connection for a sealing rubber ring with a working pressure of 2.5-8.8 MPa; Ductile iron with nodular graphite - ductile iron has differences from lamellar graphite gray iron such as higher strength, which is close to the properties of mild steel, and higher resistance to cracking. To obtain such properties, ductile iron was obtained by modifying liquid iron with magnesium and various additives. As a result, a metal was obtained in which graphite is in the form of balls, which makes it possible to increase the plasticity and strength of pipes and styles.

Date of introduction 01.01.1977

This standard applies to non-galvanized and galvanized steel welded pipes with threaded or knurled cylindrical threads and without threads used for water and gas pipelines, heating systems, as well as for parts of water and gas pipeline structures.

1. ASSORTMENT

1.1. Pipes are made according to the dimensions and weight given in table. one.

At the request of the consumer, light series pipes intended for thread rolling are manufactured according to the dimensions and weight given in Table. 2.

1.2. The length of the pipe is made from 4 to 12 m:

Measured or multiple measured length with an allowance for each cut of 5 mm and a longitudinal deviation for the entire length plus 10 mm;
- unmeasured length.

By agreement between the manufacturer and the consumer, up to 5% of pipes with a length of 1.5 to 4 m are allowed in a batch of off-gauge pipes.

Table 1

Conditional pass	Outside diameter	Wall thickness			Weight 1 meter, kg
Conditional pass	Outside diameter	lungs	ordinary	reinforced	lungs	ordinary	reinforced
6	10,2	1,8	2,0	2,5	0,37	0,40	0,47
8	13,5	2,0	2,2	2,8	0,57	0,61	0,74
10	17,0	2,0	2,2	2,8	0,74	0,80	0,98
15	21,3	2,35	-	-	1,10	-	-
15	21,3	2,5	2,8	3,2	1,16	1,28	1,43
20	26,8	2,35	-	-	1,42	-	-
20	26,8	2,5	2,8	3,2	1,50	1,66	1,86
25	33,5	2,8	3,2	4,0	2,12	2,39	2,91
32	42,3	2,8	3,2	4,0	2,73	3,09	3,78
40	48	3,0	3,5	4,0	3,33	3,84	4,34
50	60	3,0	3,5	4,0	4,22	4,88	6,16
65	75,5	3,2	3,5	4,0	5,71	7,05	7,88
80	88,5	3,5	4,0	4,5	7,34	8,34	9,32
90	101,3	3,5	4,0	4,5	8,44	9,60	10,74
100	114	4,0	4,5	5	10,85	12,15	13,44
125	140	4,0	4,5	5,5	13,42	15,04	18,24
150	165	4,0	4,5	5,5	15,88	17,81	21,63

table 2

Conditional pass	Outside diameter	Wall thickness	Weight 1 m, kg
10	16	2,0	0,69
15	20	2,5	1,08
20	26	2,5	1,45
25	32	2,8	2,02
32	41	2,8	2,64
40	47	3,0	3,26
50	59	3,0	4,14
65	74	3,2	5,59

For a thread made by knurling, a reduction in its inner diameter of up to 10% along the entire length of the thread is allowed on the pipe.
The mass of 1 m of pipes is calculated at a steel density of 7.85 g/cm3. Galvanized pipes are 3% heavier than non-galvanized ones.

1.3. Limit deviations in pipe dimensions should not exceed those indicated in Table. 3.

Table 3

The maximum deviation in the plus side along the wall thickness is limited by the maximum deviations in the mass of pipes.
Pipes of ordinary manufacturing accuracy are used for water pipes, gas pipelines and heating systems. Pipes of increased manufacturing accuracy are used for parts of water and gas pipeline structures.

1.4. Maximum deviations in the mass of pipes should not exceed +8%.

At the request of the consumer, the maximum deviations in mass should not exceed:

7.5% - for the party;
+ 10% - for a separate pipe.

1.5. The curvature of pipes per 1 m of length should not exceed:

2 mm - with nominal bore up to 20 mm inclusive;
1.5 mm - with nominal bore over 20 mm.

1.6. Pipe threads can be long or short. Thread requirements must comply with those specified in table. 4.

Table 4

Conditional pass	Number of threads with conditional passage	Thread length to the run, mm
Conditional pass	Number of threads with conditional passage	long	short
6	-	-	-
8	-	-	-
10	-	-	-
15	14	14	9
20	14	16	10,5
25	11	18	11
32	11	20	13
40	11	22	15
50	11	24	17
65	11	27	19,5
80	11	30	22
90	11	33	26
100	11	36	30
125	11	38	33
150	14	42	36

1.7. Pipes with a nominal bore of 6, 8, 10, 15 and 20 mm are wound into coils at the request of the consumer.

Legend Examples

Ordinary pipe, non-galvanized, of the usual manufacturing accuracy, random length, with a nominal bore of 20 mm, a wall thickness of 2.8 mm, without thread and without a coupling:
Pipe 20x2.8 GOST 3262-75

The same with the clutch:
Pipe M-20x2.8 GOST 3262-75

The same, measured length, threaded:
Pipe R-20x2.8-4000 GOST 3262-75

The same, zinc coated, random length, threaded:
Pipe Ts-R-20x2.8 GOST 3262-75

The same, with zinc coating, measured length, with thread:
Pipe Ts-R-20x2.8-4000 GOST 3262-75

For pipes for thread rolling, the letter H is indicated after the word "pipe" in the symbol.
For pipes with a long thread, the letter D is indicated after the word "pipe" in the symbol.
For pipes of increased manufacturing accuracy, the letter P is indicated in the symbol after the nominal bore size.

2. TECHNICAL REQUIREMENTS

2.1. Pipes are manufactured in accordance with the requirements of this standard and according to the technological regulations approved in the prescribed manner, from steels according to GOST 380 and GOST 1050 without standardization of mechanical properties and chemical composition.

Pipes for parts of water and gas pipeline structures are made of steel according to GOST 1050.

2.2. At the request of the consumer, at the ends of pipes to be welded, with a wall thickness of 5 mm or more, chamfers must be removed at an angle of 35-40 ° to the end of the pipe. In this case, an end ring with a width of 1-3 mm should be left.

At the request of the consumer, on ordinary and reinforced pipes with a nominal bore of more than 10 mm, the thread is applied to both ends of the pipe.

2.3. At the request of the consumer, the pipes are equipped with couplings made in accordance with GOST 8944, GOST 8954, GOST 8965 and GOST 8966, at the rate of one coupling for each pipe.

2.4. Cracks, captivity, swelling and sunsets are not allowed on the surface of the pipes.

At the ends of the pipes, delamination is not allowed.

Separate dents, ripples, risks, traces of stripping and other defects due to the production method are allowed, if they do not take the wall thickness beyond the minimum dimensions, as well as a scale layer that does not interfere with inspection.

On pipes made by furnace welding, it is allowed to reduce the outer diameter to 0.5 mm at the weld site if there is a gentle thickening of the inner diameter of not more than 1.0 mm in this place.

2.5. At the request of the consumer, on pipes with a nominal bore of 20 mm or more, on the inner surface of the pipe seam, the burr must be cut or flattened, while the height of the burr or its traces should not exceed 0.5 mm.

At the request of the consumer, on pipes with a nominal bore of more than 15 mm, made by furnace welding and hot reduction, a gentle thickening of a height of not more than 0.5 mm is allowed on the inner surface of the pipes in the weld zone.

2.6. Pipe ends must be cut square. The value of the bevel of the end is allowed no more than 2 °. Burr residues should not exceed 0.5 mm. When removing burrs, the formation of blunting (rounding) of the ends is allowed. It is allowed to cut pipes in the mill line.

By agreement between the manufacturer and the consumer, burrs up to 1 mm are allowed on pipes with a nominal bore of 6-25 mm, made by furnace welding.

2.7. Galvanized pipes must have a continuous zinc coating over the entire surface with a thickness of at least 30 microns. The absence of zinc coating on the ends and threads of pipes is allowed.

On the surface of galvanized pipes, blistering and foreign inclusions (hardzinc, oxides, sintered charge), peeling of the coating from the base metal are not allowed.

Separate flux spots and traces of pipes being caught by lifting devices, roughness and slight local zinc deposits are allowed.

It is allowed to correct individual non-galvanized sections by 0.5% of the outer surface of the pipe in accordance with GOST 9.307.

2.8. Pipes must withstand hydraulic pressure:

2.4 MPa (25 kgf / cm 2) - ordinary and light pipes;
3.1 MPa (32 kgf / cm 2) - reinforced pipes.
At the request of the consumer, the pipes must withstand a hydraulic pressure of 4.9 MPa (50 kgf / cm 2).

2.9. Pipes with a nominal bore up to 40 mm inclusive must withstand a bend test around a mandrel with a radius equal to 2.5 of the outer diameter, and with a nominal bore of 50 mm - on a mandrel with a radius equal to 3.5 of the outer diameter.

At the request of the consumer, the pipes must withstand the expansion test:

for pipes with nominal bore from 15 to 50 mm - not less than 7%;
for pipes with a nominal bore of 65 mm or more - at least 4%.
At the request of the consumer, the pipes must withstand the flattening test up to a distance between flattened surfaces equal to 2/3 of the outer diameter of the pipes.

2.10. At the request of the consumer, the mechanical properties of pipes for parts of water and gas pipeline structures must comply with GOST 1050.

2.11. The pipe thread must be clean, without flaws and burrs, and comply with GOST 6357, accuracy class B.

Pipes with cylindrical threads are used when assembling with seals.

2.12. In the place of the seam, blackness is allowed on the threads of the thread, if the decrease in the normal height of the thread profile does not exceed 15%, and at the request of the consumer does not exceed 10%.

Threads with broken (for cut) or incomplete (for knurled) threads are allowed on threads, provided that their total length does not exceed 10% of the required thread length, and at the request of the consumer does not exceed 5%.

2.13. It is allowed on the thread to reduce the useful length of the thread (without run-off) up to 15% compared to that indicated in Table. 4, and at the request of the consumer - up to 10%.

2.14. Threading on galvanized pipes is carried out after galvanizing.

2.16. At the request of the consumer, welded seams of pipes are subjected to control by non-destructive methods.

3. ACCEPTANCE RULES

3.1. Pipes are accepted in batches. The batch must consist of pipes of the same size, the same steel grade and be accompanied by one quality document in accordance with GOST 10692 with an addition for pipes intended for the manufacture of parts for water and gas pipeline structures, from steel in accordance with GOST 1050; chemical composition and mechanical properties of steel - in accordance with the document on the quality of the blank manufacturer.

Party weight - no more than 60 tons.

3.2. The surface, dimensions and curvature are checked for each pipe of the batch.

It is allowed to apply statistical control methods according to GOST 18242 with a normal level. Control plans are established by agreement between the manufacturer and the consumer.

The control of the outer diameter of the pipes is carried out at a distance of at least 15 mm from the end of the pipe.

3.3. To control the parameters of the thread, to test for expansion, flattening, bending, the height of the internal burr, burr residues, right angle and chamfer angle (for pipes with beveled edges), mechanical properties, no more than 1%, but not less than two pipes from the lot are selected, and for pipes manufactured by continuous furnace welding, two pipes per batch.

3.4. All pipes are subjected to mass control.

3.5. Each pipe is subjected to a hydraulic pressure test. With 100% quality control of the weld by non-destructive methods, hydraulic pressure testing may not be carried out. At the same time, the ability of the pipes to withstand the test hydraulic pressure is guaranteed.

3.6. To check the thickness of the zinc coating on the outer surface and in accessible places on the inner surface, two pipes are taken from the lot.

3.7. Upon receipt of unsatisfactory test results for at least one of the indicators, it is repeated tests on a double sample.

The retest results apply to the entire lot.

4. TEST METHODS

4.1. For quality control, one sample is cut from each selected pipe for each type of test.

The tensile test is carried out in accordance with GOST 10006. Instead of the tensile test, it is allowed to control the mechanical properties by non-destructive methods.

4.2. Inspection of the surface of the pipes is carried out visually.

4.3. Hydraulic testing is carried out in accordance with GOST 3845 with exposure under test pressure for at least 5 s.

4.4. The bend test is carried out according to GOST 3728. Galvanized pipes are tested before coating.

4.4-a. The expansion test is carried out according to GOST 8694 on a conical mandrel with a taper angle of 6°. The test can be carried out on a mandrel with a taper angle of 30°.
4.4-b. The flattening test is carried out according to GOST 8695.
4.4-in. Weld seam control is carried out by non-destructive methods according to normative documentation.

4.5. The thickness of the zinc coating on the outer surface and in accessible places on the inner surface is controlled in accordance with GOST 9.301 and GOST 9.302, as well as with devices of the MT-41NTs, MTZON or Impulse types according to regulatory documentation.

4.6. The thread is checked with threaded ring gauges according to GOST 2533 (third class of accuracy). In this case, the screwing of the non-going gauge-ring on the thread should be no more than three turns.

4.7. The curvature of the pipes is controlled by a straightedge according to GOST 8026 and a set of probes according to ND.

4.8. The right angle of the ends of the pipes is controlled by a 90 ° square with a size of 160 100 mm class 3 according to GOST 3749, plate probes of set 4 according to ND or a goniometer according to GOST 5378. The bevel angle of the chamfer is controlled by a goniometer according to GOST 5378.

4.9. The control of the outer diameter is carried out with smooth micrometers in accordance with GOST 6507, with staple gauges in accordance with GOST 2216 or GOST 18360.

The wall thickness, the height of the internal burr and the height of the burrs are measured with a micrometer according to GOST 6507 or a wall gauge according to GOST 11358 from both ends of the pipe. The length of the pipes is measured with a tape measure in accordance with GOST 7502. The thread is controlled with gauges in accordance with GOST 2533.

The control of the mass of a batch of pipes is carried out on scales of not more than 10 tons with a division value of not more than 20 kg.

4.10. Weld seam control is carried out by non-destructive methods according to technical documentation.

5. MARKING, PACKAGING, TRANSPORT AND STORAGE

5.1. Marking, packaging, transportation and storage are carried out in accordance with GOST 10692 with an addition.
5.1.1. Pipe threads must be protected from mechanical damage and corrosion with grease in accordance with regulatory documents.

Includes Changes No. 1, 2, 3, 4, 5, 6 approved January 1987, May 1988, November 1989, November 1991 2-90, 2-92)

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GOST 3262-75 Steel water and gas pipes. Specifications

Categories GOST 3262-75 for OKS:

23.40. Pipelines and their components
23.40.10 Cast iron and steel pipes *Steel pipes and tubes for special purposes, see 77.140.75

Document status: valid, put into effect on 01/01/1977 Title in English: Water-supply and gas-supply steel pipes. Specifications Date of updating information according to the standard: 09/11/2019 at 10:56 am (less than 3 months ago) Type of standard: Standards for products (services) GOST start date: 1977-01-01 Date of last edition of the document: 2007-05-01

Document codes GOST 3262-75:

OKP code: 138500;138501 KGS code: B62 OKSTU code: 1385

Number of pages: 8

Purpose of GOST 3262-75: This standard applies to non-galvanized and galvanized steel welded pipes with threaded or knurled cylindrical threads and without threads used for water and gas pipelines, heating systems, as well as for parts of water and gas pipeline structures

SRNTI index(es): 534731 The document was developed by the organization: Minchermet of the USSR Document keywords: tests, acceptance, assortment, technical requirements, non-galvanized pipes, galvanized pipes, welded pipes, steel pipes

Links to others: TU 2-034-225-88

You can download GOST 3262-75 in the following versions:

Date added in file version:

Amendments and changes to GOST 3262-75:

Name, type:

registrations:

start action:

Change No. 1 to GOST 3262-75

change type: Text change
Change number: 1
Registration number: 2669

Change No. 2 to GOST 3262-75

change type: Text change
Change number: 2
Registration number: 45

Change No. 3 to GOST 3262-75

change type: Text change; Title changed
Change number: 3
Registration number: 4456
New value: See title

Change No. 4 to GOST 3262-75

change type: Text change
Change number: 4
Registration number: 1139
New value: -

Change No. 5 to GOST 3262-75

change type: Text change
Change number: 5
Registration number: 3347
New value: -

Change No. 6 to GOST 3262-75

change type: Text change
Change number: 6
Registration number: 1726
New value: -

GOST 3262-75

Group B62

INTERSTATE STANDARD

STEEL WATER AND GAS PIPES

Specifications

Water-supply and gas-supply steel pipes. Specifications

OKP 13 8500, OKP 13 8501

Introduction date 1977-01-01

INFORMATION DATA

1. DEVELOPED AND INTRODUCED by the Ministry of Ferrous Metallurgy of the USSR

DEVELOPERS

V.I.Struzhok, Ph.D. tech. sciences; V.M.Vorona, Ph.D. tech. sciences; Yu.M.Mironov, Ph.D. tech. sciences; A.I. Postolova

2. APPROVED AND INTRODUCED BY Decree of the USSR State Committee for Standards dated 11.09.75 N 2379

3. Periodicity of inspection - 5 years

4. REPLACE GOST 3262-62

5. REFERENCE REGULATIONS AND TECHNICAL DOCUMENTS


	Item number

________________
* Valid on the territory of the Russian Federation.

6. The limitation of the validity period was removed by the Decree of the State Standard of November 12, 1991 N 1726

7. EDITION with Changes N 1, 2, 3, 4, 5, 6, approved in November 1977, December 1978, January 1987, May 1988, November 1989, November 1991 ( IUS 1-78, 2-79, 4-87, 8-88, 2-90, 2-92)

(Changed edition, Rev. N 2, 3, 5).

1. ASSORTMENT

1.1. Pipes are manufactured according to the dimensions and weight given in Table 1.

Table 1

Dimensions, mm


Conditional pass	Outside diameter	Pipe Wall Thickness			Weight of 1 m of pipes, kg
		lungs	ordinary	enhanced	lungs	ordinary	enhanced

At the request of the consumer, light series pipes intended for thread rolling are manufactured according to the dimensions and weight given in Table 2.

table 2

Dimensions, mm


Conditional pass	Outside diameter	Wall thickness	Weight of 1 m of pipes, kg

Notes:

1. For a thread made by knurling, a reduction in its inner diameter of up to 10% along the entire length of the thread is allowed on the pipe.

2. The mass of 1 m of pipes is calculated with a steel density of 7.85 g/cm. Galvanized pipes are 3% heavier than non-galvanized ones.

(Changed edition, Rev. N 1, 3).

1.2. The length of the pipe is made from 4 to 12 m:

Measured or multiple measured length with an allowance for each cut of 5 mm and a longitudinal deviation for the entire length plus 10 mm;

Unmeasured length.

By agreement between the manufacturer and the consumer, up to 5% of pipes with a length of 1.5 to 4 m are allowed in a batch of off-gauge pipes.

1.3. Limit deviations in pipe dimensions should not exceed those indicated in Table 3.

Table 3


Pipe size	Limit deviation for precision pipes manufacturing
		elevated
Outer diameter with nominal bore:
up to 40 mm incl.	0.4 mm -0,5
over 40 mm	0,8% -1,0
Wall thickness

Notes:

1. The maximum deviation in the plus side along the wall thickness is limited by the maximum deviations in the mass of pipes.

2. Pipes of ordinary manufacturing accuracy are used for water pipes, gas pipelines and heating systems. Pipes of increased manufacturing accuracy are used for parts of water and gas pipeline structures.

1.4. Maximum deviations in the mass of pipes should not exceed + 8%.

At the request of the consumer, the maximum deviations in mass should not exceed:

7.5% - for the party;

10% - for a single pipe.

(Changed edition, Rev. N 2, 5).

1.5. The curvature of pipes per 1 m of length should not exceed:

2 mm - with nominal bore up to 20 mm inclusive;

1.5 mm - with nominal bore over 20 mm.

1.6. Pipe threads can be long or short. Thread requirements must be as specified in Table 4.

Table 4


Conditional passage, mm	Number of threads with conditional passage	Thread length to the run, mm
			short

1.7. Pipes with a nominal bore of 6, 8, 10.15 and 20 mm are wound into coils at the request of the consumer.

Legend Examples

Ordinary pipe, non-galvanized, of the usual manufacturing accuracy, random length, with a nominal bore of 20 mm, a wall thickness of 2.8 mm, without thread and without a coupling:

Pipe 20x2.8 GOST 3262-75

The same with the clutch:

Pipe M-20x2.8 GOST 3262-75

The same, measured length, threaded:

Pipe P-20x2.8-4000 GOST 3262-75

The same, zinc coated, random length, threaded:

Pipe Ts-R-20x2.8 GOST 3262-75

The same, with zinc coating, measured length, with thread:

Pipe Ts-R-20x2.8-4000 GOST 3262-75

For pipes for thread rolling, the letter H is indicated after the word "pipe" in the symbol.

For pipes with a long thread, the letter D is indicated after the word "pipe" in the symbol.

For pipes of increased manufacturing accuracy, the letter P is indicated in the symbol after the nominal bore size.

(Changed edition, Rev. N 1).

2. TECHNICAL REQUIREMENTS

2.1. Pipes are manufactured in accordance with the requirements of this standard and according to the technological regulations approved in the prescribed manner, from steels with and without standardization of mechanical properties and chemical composition.

Pipes for parts of water and gas pipeline structures are made of steel according to GOST 1050.

At the request of the consumer, on ordinary and reinforced pipes with a nominal bore of more than 10 mm, the thread is applied to both ends of the pipe.

2.1, 2.2. (Changed edition, Rev. N 3, 4).

2.3. At the request of the consumer, the pipes are equipped with couplings made according to, and, at the rate of one coupling for each pipe.

(Changed edition, Rev. N 3).

2.4. Cracks, captivity, swelling and sunsets are not allowed on the surface of the pipes.

At the ends of the pipes, delamination is not allowed.

On pipes made by furnace welding, it is allowed to reduce the outer diameter to 0.5 mm at the weld site if there is a gentle thickening of the inner diameter of not more than 1.0 mm in this place.

(Changed edition, Rev. N 3, 4).

(Changed edition, Rev. N 2, 3, 4, 5, 6).

By agreement between the manufacturer and the consumer, burrs up to 1 mm are allowed on pipes with a nominal bore of 6-25 mm, made by furnace welding.

(Changed edition, Rev. N 4, 6).

2.7. Galvanized pipes must have a continuous zinc coating over the entire surface with a thickness of at least 30 microns. The absence of zinc coating on the ends and threads of pipes is allowed.

On the surface of galvanized pipes, blistering and foreign inclusions (hardzinc, oxides, sintered charge), peeling of the coating from the base metal are not allowed.

Separate flux spots and traces of pipes being caught by lifting devices, roughness and slight local zinc deposits are allowed.

It is allowed to correct individual non-galvanized sections by 0.5% of the outer surface of the pipe in accordance with GOST 9.307.

(Changed edition, Rev. N 3, 4).

2.8. Pipes must withstand hydraulic pressure:

2.4 MPa (25 kgf / cm) - ordinary and light pipes;

3.1 MPa (32 kgf/cm) - reinforced pipes.

At the request of the consumer, the pipes must withstand a hydraulic pressure of 4.9 MPa (50 kgf/cm).

At the request of the consumer, the pipes must withstand the expansion test:

For pipes with nominal bore from 15 to 50 mm - not less than 7%;

For pipes with a nominal bore of 65 mm or more - at least 4%.

At the request of the consumer, the pipes must withstand the flattening test up to a distance between flattened surfaces equal to 2/3 of the outer diameter of the pipes.

2.8, 2.9. (Changed edition, Rev. N 2, 3, 5).

2.10. At the request of the consumer, the mechanical properties of pipes for parts of water and gas pipeline structures must comply with GOST 1050.

2.11. Pipe threads must be clean, free of flaws and burrs and comply with accuracy class B.

Pipes with cylindrical threads are used when assembling with seals.

2.10, 2.11. (Changed edition, Rev. N 3, 4).

2.12. In the place of the seam, blackness on the threads of the thread is allowed if the decrease in the normal height of the thread profile does not exceed 15%, and at the request of the consumer does not exceed 10%.

Threads with stripped (for cut) or incomplete (for knurled) threads are allowed on threads, provided that their total length does not exceed 10% of the required thread length, and at the request of the consumer does not exceed 5%.

2.13. It is allowed on the thread to reduce the useful length of the thread (without run-off) up to 15% compared to that indicated in Table 4, and at the request of the consumer - up to 10%.

2.12, 2.13. (Changed edition, Rev. N 2, 3, 5).

2.14. Threading on galvanized pipes is carried out after galvanizing.

2.15. (Deleted, Rev. N 3).

2.16. At the request of the consumer, welded seams of pipes are subjected to control by non-destructive methods.

(Changed edition, Rev. N 5).

3. ACCEPTANCE RULES

3.1. Pipes are accepted in batches. The batch must consist of pipes of the same size, the same steel grade and be accompanied by one quality document in accordance with the addendum for pipes intended for the manufacture of parts for water and gas pipeline structures, from steel according to; chemical composition and mechanical properties of steel - in accordance with the document on the quality of the enterprise - the manufacturer of the workpiece.

Party weight - no more than 60 tons.

(Changed edition, Rev. N 3, 4).

3.2. The surface, dimensions and curvature are checked for each pipe of the batch.

It is allowed to apply statistical control methods with a normal level. Control plans are established by agreement between the manufacturer and the consumer.

The control of the outer diameter of the pipes is carried out at a distance of at least 15 mm from the end of the pipe.

(Changed edition, Rev. N 3, 4, 5).

3.3. To control the parameters of the thread, to test for expansion, flattening, bending, the height of the internal burr, burr residues, right angle and chamfer angle (for pipes with bevelled edges), mechanical properties are selected no more than 1%, but not less than two pipes from the batch, and for pipes manufactured by continuous furnace welding, two pipes per lot.

(Changed edition, Rev. N 3, 4).

3.4. All pipes are subjected to mass control.

(Changed edition, Rev. N 3).

(Changed edition, Rev. N 6).

3.6. To check the thickness of the zinc coating on the outer surface and in accessible places on the inner surface, two pipes are taken from the lot.

(Changed edition, Rev. N 2).

3.7. Upon receipt of unsatisfactory test results for at least one of the indicators, it is repeated tests on a double sample.

The retest results apply to the entire lot.

4. TEST METHODS

4.1. For quality control, one sample is cut from each selected pipe for each type of test.

The tensile test is carried out in accordance with GOST 10006. Instead of the tensile test, it is allowed to control the mechanical properties by non-destructive methods.

4.2. Inspection of the surface of the pipes is carried out visually.

4.3. The hydraulic test is carried out with exposure under test pressure for at least 5 s.

4.4. The bend test is carried out according to GOST 3728. Galvanized pipes are tested before coating.

(Changed edition, Rev. N 3).

4.4a. The expansion test is carried out on a conical mandrel with a taper angle of 6°.

The test can be carried out on a mandrel with a taper angle of 30°.

(Changed edition, Rev. N 3, 4).

4.4b. The flattening test is carried out according to GOST 8695.

(Changed edition, Rev. N 3).

4.4c. Weld seam control is carried out by non-destructive methods according to normative documentation.

(Introduced additionally, Rev. N 3).

4.5. The thickness of the zinc coating on the outer surface and in accessible places on the inner surface is controlled by and , as well as by devices of the MT-41NTs, MTZON or Impulse types according to regulatory documentation.

4.6. The thread is checked with threaded ring gauges according to (third accuracy class).

In this case, the screwing of the non-going gauge-ring on the thread should be no more than three turns.

(Changed edition, Rev. N 3, 4).

4.7. The curvature of the pipes is controlled by a straightedge along and a set of probes according to ND.

(Changed edition, Rev. N 3, 5).

4.8. The right angle of the ends of the pipes is controlled by a 90 ° square with a size of 160x100 mm of class 3 according to, lamellar probes of set 4 according to ND or a goniometer according to GOST 5378. The bevel angle of the chamfer is controlled by a goniometer according to GOST 5378.

(Changed edition, Rev. N 3, 6).

4.9. The control of the outer diameter is carried out with smooth micrometers according to, staple gauges according to or GOST 18360.

The wall thickness, the height of the internal burr and the height of the burrs are measured with a micrometer along or a wall gauge along at both ends of the pipe.

The length of the pipes is measured with a tape measure in accordance with GOST 7502. The thread is controlled with gauges in accordance with GOST 2533.

The control of the mass of a batch of pipes is carried out on scales of not more than 10 tons with a division value of not more than 20 kg.

(Changed edition, Rev. N 3, 4, 5, 6).

4.10. Weld seam control is carried out by non-destructive methods according to technical documentation.

(Introduced additionally, Rev. N 4).

5. MARKING, PACKAGING, TRANSPORT AND STORAGE

5.1. Marking, packaging, transportation and storage are carried out according to the supplement.

5.1.1. Pipe threads must be protected from mechanical damage and corrosion with grease in accordance with regulatory documents.

Section 5. (Changed edition, Rev. N 3).

The text of the document is verified by:
official publication
Pipes metal and connecting parts to them.
Part 3. Welded pipes. Profile pipes: Sat. GOSTs. -
M.: IPK Standards Publishing House, 2001

Electric-welded longitudinal GOST 3262 are electric-welded pipes that are used to create heating and water supply systems, as well as gas pipelines. The requirements specified in the regulation apply to steel products, in which threads and galvanized coating may or may not be present. thin-walled and thick-walled have a wide range of applications due to good technical characteristics and low cost. With their help, it is allowed to implement almost any projects for supplying the building with engineering networks.

Varieties of VGP pipes

The presented variety of rolled metal products is produced with a length of 4 to 12 m. They can be divided into VGP pipes of measured and random lengths. Depending on the conditional passage, they can be wound into coils. In addition, metal products of this type are divided into the following types:

pipes of ordinary accuracy are produced without rationing the composition of mechanical properties;
pipes of increased accuracy, during the creation of which the norms of GOST 1050-88 are observed.

Products are divided into thick-walled and thin-walled steel pipes depending on the wall thickness. Often, experts divide them into light, ordinary and reinforced on a similar basis. Buyers should carefully read the characteristics of the products, as this will affect the operation process in the future. Incorrect selection and installation can cause premature failure of the system and the need for immediate repair.

Advantages of VGP pipes

It is important to buy water and gas pipes for housing and communal services, owners of private houses and enterprises. They have the following benefits:

high quality workmanship and the absence of marriage;
the ability to select products with a suitable diameter, size and weight;
ease of installation is ensured by the use of welding;
materials are resistant to corrosion, chemical and mechanical stress;
high strength and no deformation;
long service life;
ease of transportation and storage;
affordable cost.

Anyone can acquire rolled metal of the presented type wholesale or retail, choosing it in accordance with the purpose. The terms of delivery of goods are guaranteed to satisfy all buyers.

INTERSTATE STANDARD

STEEL PIPES
WATER AND GAS

TECHNICAL CONDITIONS

Introduction date 01.01.77

1. ASSORTMENT

1.1. Pipes are made according to the dimensions and weight given in table. one.

At the request of the consumer, light series pipes intended for thread rolling are manufactured according to the dimensions and weight given in Table. 2.

1.2. The length of the pipe is made from 4 to 12 m:

a) measured or multiple measured length with an allowance for each cut of 5 mm and a maximum deviation for the entire length plus 10 mm;

b) unmeasured length.

By agreement between the manufacturer and the consumer, up to 5% of pipes with a length of 1.5 to 4 m are allowed in a batch of off-gauge pipes.

Table 1

Conditional pass	Outside diameter	Pipe Wall Thickness			Weight of 1 m of pipes, kg
Conditional pass	Outside diameter		ordinary	enhanced		ordinary	enhanced

table 2

Conditional pass	Outside diameter	Wall thickness	Weight of 1 m of pipes, kg








Notes: 1. For a thread made by knurling, a reduction in its inner diameter of up to 10% along the entire length of the thread is allowed on the pipe. 2. The mass of 1 m of pipes was calculated with a steel density of 7.85 g / cm 3. Galvanized pipes are 3% heavier than non-galvanized ones.

1.3. Limit deviations in pipe dimensions should not exceed those indicated in Table. 3.

Table 3

Pipe dimensions		Pipe dimensions	Limit deviations for manufacturing precision pipes
Pipe dimensions	elevated	Pipe dimensions		elevated
		Outer diameter with nominal bore:
		over 40 mm
up to 40 mm incl.		Wall thickness
Notes: 1. The maximum deviation in the plus side along the wall thickness is limited by the maximum deviations in the mass of pipes. 2. Pipes of ordinary manufacturing accuracy are used for water pipes, gas pipelines and heating systems. Pipes of increased manufacturing accuracy are used for parts of water and gas pipeline structures.

1.4. Maximum deviations in the mass of pipes should not exceed +8%.

At the request of the consumer, the maximum deviations in mass should not exceed:

7.5% - for the party;

10% - for a single pipe.

(Changed edition, Rev. No. 2, 5).

1.5. The curvature of pipes per 1 m of length should not exceed:

2 mm - with nominal bore up to 20 mm inclusive;

1.5 mm - with nominal bore over 20 mm.

1.6. Pipe threads can be long or short. Thread requirements must comply with those specified in table. 4.

Table 4

Conditional passage, mm	Thread length before run		Conditional passage, mm	Number of threads with conditional passage	Thread length before run
Conditional passage, mm		short	Conditional passage, mm	Number of threads with conditional passage		short

1.7. Pipes with a nominal bore of 6, 8, 10, 15 and 20 mm are wound into coils at the request of the consumer.

Legend Examples

Ordinary pipe, non-galvanized, of the usual manufacturing accuracy, random length, with a nominal bore of 20 mm, a wall thickness of 2.8 mm, without thread and without a coupling:

The same with the clutch:

The same, measured length, threaded:

The same, zinc coated, random length, threaded:

The same, with zinc coating, measured length, with thread:

For pipes for thread rolling, the letter H is indicated after the word "pipe" in the symbol.

For pipes with a long thread, the letter D is indicated after the word "pipe" in the symbol.

For pipes of increased manufacturing accuracy, the letter P is indicated in the symbol after the nominal bore size.

(Revised edition, Rev. No. 1).

2. TECHNICAL REQUIREMENTS

Pipes for parts of water and gas pipeline structures are made of steel according to GOST 1050.

2.2. At the request of the consumer, the ends of the pipes to be welded, with a wall thickness of 5 mm or more, must be chamfered at an angle of 35 - 40 ° to the end of the pipe. In this case, an end ring with a width of 1 - 3 mm should be left.

At the request of the consumer, on ordinary and reinforced pipes with a nominal bore of more than 10 mm, the thread is applied to both ends of the pipe.

2.1; 2.2.

2.3. At the request of the consumer, the pipes are equipped with couplings made in accordance with GOST 8944, GOST 8954, GOST 8965 and GOST 8966 at the rate of one coupling for each pipe.

(Revised edition, Rev. No. 3).

2.4. Cracks, captivity, swelling and sunsets are not allowed on the surface of the pipes.

At the ends of the pipes, delamination is not allowed.

On pipes made by furnace welding, it is allowed to reduce the outer diameter to 0.5 mm at the weld site if there is a gentle thickening of the inner diameter of not more than 1.0 mm in this place.

(Changed edition, Rev. No. 3, 4).

(Changed edition, Rev. No. 2, 3, 4, 5, 6).

By agreement between the manufacturer and the consumer, burrs up to 1 mm are allowed on pipes with a nominal bore of 6–25 mm, made by furnace welding.

(Changed edition, Rev. No. 4, 6).

2.7. Galvanized pipes must have a continuous zinc coating over the entire surface with a thickness of at least 30 microns. The absence of zinc coating on the ends and threads of pipes is allowed.

On the surface of galvanized pipes, blistering and foreign inclusions (hardzinc, oxides, sintered charge), peeling of the coating from the base metal are not allowed.

Separate flux spots and traces of pipes being caught by lifting devices, roughness and slight local zinc deposits are allowed.

It is allowed to correct individual non-galvanized sections by 0.5% of the outer surface of the pipe in accordance with GOST 9.307.

(Changed edition, Rev. No. 3, 4).

2.8. Pipes must withstand hydraulic pressure:

2.4 MPa (25 kgf / cm 2) - pipes, ordinary and light;

3.1 MPa (32 kgf / cm 2) - reinforced pipes.

At the request of the consumer, the pipes must withstand a hydraulic pressure of 4.9 MPa (50 kgf / cm 2)

(Changed edition, Rev. No. 2, 3, 5).

At the request of the consumer, the pipes must withstand the expansion test:

for pipes with nominal bore from 15 to 50 mm - not less than 7%;

for pipes with a nominal bore of 65 or more - at least 4%.

At the request of the consumer, the pipes must withstand the flattening test up to a distance between the flattened surfaces equal to 2/3 of the outer diameter of the pipes.

(Changed edition, Rev. No. 2, 3, 5).

2.10. At the request of the consumer, the mechanical properties of pipes for parts of water and gas pipeline structures must comply with GOST 1050.

2.11. The pipe thread must be clean, without flaws and burrs, and comply with GOST 6357, accuracy class B.

Pipes with cylindrical threads are used when assembling with seals.

2.10; 2.11. (Changed edition, Rev. No. 3, 4).

(Changed edition, Rev. No. 2, 3, 5).

2.13. It is allowed on the thread to reduce the useful length of the thread (without run-off) up to 15% compared to that indicated in Table. 4, and at the request of the consumer up to 10%.

(Changed edition, Rev. No. 2, 3, 5).

2.14. Threading on galvanized pipes is carried out after galvanizing.

2.15. (Deleted, Rev. No. 3).

2.16. At the request of the consumer, welded seams of pipes are subjected to control by non-destructive methods.

(Revised edition, Rev. No. 5).

3. ACCEPTANCE RULES

3.1. Pipes are accepted in batches. The batch must consist of pipes of the same size, the same brand and be accompanied by one quality document in accordance with GOST 10692 with an addition for pipes intended for the manufacture of parts for water and gas pipeline structures, made of steel in accordance with GOST 1050: chemical composition and mechanical properties of steel in accordance with document on the quality of the manufacturer of the workpiece.

The mass of the party is not more than 60 tons.

(Changed edition, Rev. No. 3, 4).

3.2. The surface, dimensions and curvature are checked for each pipe of the batch.

It is allowed to apply statistical control methods according to GOST 18242 * with a normal level. Control plans are established by agreement between the manufacturer and the consumer.

* On the territory of the Russian Federation, GOST R 50779.71-99 applies.

The control of the outer diameter of the pipes is carried out at a distance of at least 15 mm from the end of the pipe.

(Changed edition, Rev. No. 3, 4, 5).

(Changed edition, Rev. No. 3, 4).

3.4. All pipes are subjected to mass control.

(Revised edition, Rev. No. 3).

(Revised edition, Rev. No. 6).

3.6. To check the thickness of the zinc coating on the outer surface and in accessible places on the inner surface, two pipes are taken from the lot.

(Revised edition, Rev. No. 2).

3.7. If unsatisfactory test results are obtained for at least one of the indicators, a second test is carried out on a double sample.

The retest results apply to the entire lot.

4. TEST METHODS

4.1. For quality control, one sample is cut from each selected pipe for each type of test.

The tensile test is carried out according to GOST 10006. Instead of tensile testing, it is allowed to control mechanical properties by non-destructive methods.

(Changed edition, Rev. No. 3, 6).

4.2. Inspection of the surface of the pipes is carried out visually.

4.3. Hydraulic testing is carried out in accordance with GOST 3845 with exposure under test pressure for at least 5 s.

4.4. The bend test is carried out according to GOST 3728. Galvanized pipes are tested before coating.

(Revised edition, Rev. No. 3).

4.4a. The expansion test is carried out according to GOST 8694 on a conical mandrel with a taper angle of 6°.

The test can be carried out on a mandrel with a taper angle of 30°.

(Changed edition, Rev. No. 3, 4).

4.4b. The flattening test is carried out according to GOST 8695.

(Revised edition, Rev. No. 3).

4.4c. Weld seam control is carried out by non-destructive methods according to normative and technical documentation.

(Introducedadditionally, ch. No. 3).

4.6. The thread is checked with threaded ring gauges according to GOST 2533 (third class of accuracy).

In this case, the screwing of the non-going gauge-ring on the thread should be no more than three turns.

(Changed edition, Rev. No. 3, 4).

4.7. The curvature of the pipes is controlled by a straightedge according to GOST 8026 and a set of probes according to NTD.

(Changed edition, Rev. No. 3, 5).

4.8. The right angle of the ends of the pipes is controlled by a 90 ° square with a size of 160x100 mm class 3 GOST 3749, plate probes of set 4 according to NTD or a goniometer