GOST 5949-2018 Metal products made from stainless steels and iron-nickel alloys, corrosion-resistant, heat-resistant and heat-resistant. Specifications


1 area of ​​use

This standard applies to hot-rolled and forged (diameter, square side or thickness up to 200 mm inclusive), calibrated metal products and metal products with special surface finishing made from stainless steels and iron-nickel-based alloys that are corrosion-resistant, heat-resistant and heat-resistant.

Hot-rolled and forged metal products with a diameter, square side or thickness over 200 to 350 mm inclusive are manufactured by agreement between the manufacturer and the customer.

5Order conditions

The customer must provide the manufacturer with all requirements necessary for the supply of metal products in accordance with the requirements of this standard.

5.1 Basic requirements specified when placing an order:

- scope of delivery;

-method of production of metal products (hot-rolled, forged, calibrated, with special surface finishing);

- cross-sectional shape (circle, square, hexagon, strip), dimensions of metal products and designation of the corresponding standard assortment;

-type of delivery (in rods, in coils, in strips);

- designation of this standard;

-grade of steel or alloy;

-method of smelting, remelting and casting steel or alloy;

- quality or surface finishing group;

- state of delivery or type of heat treatment;

- document on the quality of metal products in accordance with GOST 7566.

_______________

See also [2].

5.2 Additional requirements specified when placing an order, taking into account requirements 7.2.

2 Normative references

This standard uses normative references to the following interstate standards:

GOST 103-2006 Long-rolled hot-rolled steel strip. Assortment

GOST 166-89 (ISO 3599-76) Calipers. Specifications

GOST 427-75 Metal measuring rulers. Specifications

GOST 1051-73 Calibrated rolled products. General technical conditions

GOST 1133-71 Forged steel round and square. Assortment

GOST 1497-84 (ISO 6892-84) Metals. Tensile test methods

GOST 1778-70 (ISO 4967-79) Steel. Metallographic methods for determining non-metallic inclusions1)

___________

1) In the Russian Federation, GOST R ISO 4967-2009 (ISO 4967:1998) “Steel. Determination of the content of non-metallic inclusions. Metallographic method using standard scales."

GOST 2216-84 Smooth adjustable clamp gauges. Specifications

GOST 2246-70 Steel welding wire. Specifications

GOST 2590-2006 Hot-rolled round steel products. Assortment

GOST 2591-2006 Hot-rolled square steel products. Assortment

GOST 2879-2006 Hot-rolled hexagonal long steel products. Assortment

GOST 4405-75 Hot-rolled and forged strips made of tool steel. Assortment

GOST 5632-2014 Alloyed stainless steels and alloys are corrosion-resistant, heat-resistant and heat-resistant. Brands2)

___________

2) In the Russian Federation, when manufacturing metal products for nuclear power engineering enterprises, until December 31, 2022, it is necessary to be guided by GOST 5632-72 “High-alloy steels and corrosion-resistant, heat-resistant and heat-resistant alloys. Stamps."

GOST 5639-82 Steels and alloys. Methods for identifying and determining grain size

GOST 6032-2017 (ISO 3651-1:1998, ISO 3651-2:1998) Corrosion-resistant steels and alloys. Test methods for resistance to intergranular corrosion

GOST 6507-90 Micrometers. Specifications

GOST 7417-75 Calibrated round steel. Assortment

GOST 7502-98 Metal measuring tapes. Specifications

GOST 7564-97 Rental. General rules for sampling, blanks and specimens for mechanical and technological tests

GOST 7565-81 (ISO 377-2-89) Cast iron, steel and alloys. Sampling method for determining chemical composition1)

___________

1) In the Russian Federation, GOST R ISO 14284-2009 “Steel and cast iron. Selection and preparation of samples to determine the chemical composition."

GOST 7566-94 Metal products. Reception, labeling, packaging, transportation and storage2)

___________

2) Replaced by GOST 7566-2018 “Metal products. Acceptance rules, labeling, packaging, transportation and storage.”

GOST 8559-75 Calibrated square steel. Assortment

GOST 8560-78 Calibrated hexagonal rolled products. Assortment

GOST 8817-82 Metals. Slump test method

GOST 9012-59 (ISO 410-82, ISO 6506-81) Metals. Brinell hardness measurement method

GOST 9013-59 (ISO 6508-86) Metals. Rockwell hardness test method

GOST 9454-78 Metals. Impact bending test method at low, room and elevated temperatures

GOST 9651-84 (ISO 783-89) Metals. Tensile test methods at elevated temperatures

GOST 10145-81 Metals. Long-term strength test method

GOST 10243-75 Steel. Test methods and macrostructure evaluation

GOST 11098-75 Staples with a reading device. Specifications

GOST 11878-66 Austenitic steel. Methods for determining the ferrite phase content in rods

GOST 12344-2003 Alloy and high-alloy steels. Carbon determination methods

GOST 12345-2001 (ISO 671-82, ISO 4935-89) Alloy and high-alloy steels. Methods for determining sulfur

GOST 12346-78 (ISO 439-82, ISO 4829-1-86) Alloy and high-alloy steels. Methods for determining silicon

GOST 12347-77 Alloy and high-alloy steels. Phosphorus determination methods

GOST 12348-78 (ISO 629-82) Alloy and high-alloy steels. Methods for determining manganese

GOST 12349-83 Alloy and high-alloy steels. Methods for determining tungsten

GOST 12350-78 Alloy and high-alloy steels. Methods for determining chromium

GOST 12351-2003 (ISO 4942:1988, ISO 9647:1989) Alloy and high-alloy steels. Methods for determining vanadium

GOST 12352-81 Alloy and high-alloy steels. Methods for determining nickel

GOST 12353-78 Alloy and high-alloy steels. Methods for determining cobalt

GOST 12354-81 Alloy and high-alloy steels. Methods for determining molybdenum

GOST 12355-78 Alloy and high-alloy steels. Methods for determining copper

GOST 12356-81 Alloy and high-alloy steels. Methods for determining titanium

GOST 12357-84 Alloy and high-alloy steels. Methods for determining aluminum

GOST 12358-2002 Alloy and high-alloy steels. Arsenic determination methods

GOST 12359-99 (ISO 4945-77) Carbon steels, alloyed and high-alloyed. Methods for determining nitrogen

GOST 12360-82 Alloy and high-alloy steels. Methods for determining boron3)

___________

3) In the Russian Federation, GOST R ISO 10153-2011 “Steel. Determination of boron content. Spectrophotometric method using curcumin."

GOST 12361-2002 Alloy and high-alloy steels. Methods for determining niobium

GOST 12362-79 Alloy and high-alloy steels. Methods for determining microimpurities of antimony, lead, tin, zinc and cadmium

GOST 12363-79 Alloy and high-alloy steels. Methods for determining selenium

GOST 12364-84 Alloy and high-alloy steels. Methods for determining cerium

GOST 12365-84 Alloy and high-alloy steels. Methods for determining zirconium

GOST 14955-77 High-quality round steel with special surface finishing. Specifications

GOST 15846-2002 Products sent to the Far North and equivalent areas. Packaging, labeling, transportation and storage

GOST 17745-90 Steels and alloys. Gas determination methods

GOST 18895-97 Steel. Photoelectric spectral analysis method1)

___________

1) In the Russian Federation, GOST R 54153-2010 “Steel. Method of atomic emission spectral analysis".

GOST 24597-81 Packages of packaged piece goods. Main parameters and dimensions

GOST 26663-85 Transport packages. Formation using packaging tools. General technical requirements

GOST 27809-95 Cast iron and steel. Spectrographic analysis methods

GOST 28033-89 Steel. X-ray fluorescence analysis method

GOST 28473-90 Cast iron, steel, ferroalloys, chrome, manganese metal. General requirements for analysis methods

Note - When using this standard, it is advisable to check the validity of the reference standards in the public information system - on the official website of the Federal Agency for Technical Regulation and Metrology on the Internet or using the annual information index "National Standards", which was published as of January 1 of the current year, and on issues of the monthly information index “National Standards” for the current year. If the reference standard is replaced (changed), then when using this standard you should be guided by the replacing (changed) standard. If the reference standard is canceled without replacement, then the provision in which a reference is made to it is applied in the part that does not affect this reference.

Preface

Preface

The goals, basic principles and basic procedure for carrying out work on interstate standardization are established in GOST 1.0-2015 “Interstate standardization system. Basic provisions" and GOST 1.2-2015 "Interstate standardization system. Interstate standards, rules and recommendations for interstate standardization. Rules for the development, adoption, updating of the Central Scientific Research Institute of Ferrous Metallurgy named after I.P. Bardin (FSUE TsNIIchermet named after I.P. Bardin)

2INTRODUCED by the Federal Agency for Technical Regulation and Metrology

3ADOPTED by the Interstate Council for Standardization, Metrology and Certification (protocol dated June 27, 2022 N 53)

Voted for adoption:

Brief name of the country according to MK (ISO 3166)004-97 Country code according to MK (ISO 3166) 004-97 Abbreviated name of the national standardization body
Belarus BY State Standard of the Republic of Belarus
Kyrgyzstan KG Kyrgyzstandard
Kazakhstan KZ State Standard of the Republic of Kazakhstan
Russia RU Rosstandart
Tajikistan T.J. Tajikstandard
Uzbekistan UZ Uzstandard
Ukraine U.A. Ministry of Economic Development of Ukraine

4 By order of the Federal Agency for Technical Regulation and Metrology dated September 20, 2022 N624-st, the interstate standard GOST 5949-2018 was introduced as a national standard of the Russian Federation from February 1, 2022.

5INstead of GOST 5949-75

Information about
changes to this standard is published in the annual information index National Standards , and the text of changes and amendments is published in the monthly information index National Standards . In case of revision (replacement) or cancellation of this standard corresponding notice will be published in the monthly information index National Standards . Relevant information, notices and texts also posted in public information system - on the official website the Federal Agency for Technical Regulation and Metrology on the Internet ( www . gost . ru )

6Assortment

In terms of shape, size and maximum deviations, metal products must comply with:

a) hot rolled:

1) round in rods and coils - GOST 2590 or other regulatory documents agreed upon when placing an order;

2) square in rods and coils - GOST 2591 or other regulatory documents agreed upon when placing the order;

3) hexagonal in rods and coils - GOST 2879 or other regulatory documents agreed upon when placing an order;

4) strip - GOST 103, GOST 4405 or other regulatory documents agreed upon when placing an order;

b) forged:

1) round and square rolled - GOST 1133 or other regulatory documents agreed upon when placing an order;

2) strip - GOST 4405 or other regulatory documents agreed upon when placing an order;

c) calibrated:

1) round in rods and coils - GOST 7417;

2) square in rods and coils - GOST 8559;

3) hexagonal in rods and coils - GOST 8560;

4) strip - regulatory documents agreed upon when placing an order;

d) with special surface finishing in rods and coils - GOST 14955.

ASSORTMENT

2.1. Hot rolled thin sheets are produced with a thickness of 1.5 to 3.9 mm, cold rolled - with a thickness of 0.5 to 3.9 mm. (Changed edition, Amendment No. 2).

2.2. The shape, dimensions and maximum deviations in dimensions of thin-sheet rolled products must comply with the requirements: - hot-rolled - GOST 19903; — cold rolled — GOST 19904.

2.3. Deviation from flatness of sheets with a temporary resistance of 70 kgf/mm less must comply with GOST 19903 and GOST 19904 for high (PV), improved (PU) and normal (PN) flatness. Deviation from flatness of sheets with temporary resistance St. 70 to 85 kgf/mm incl. should not exceed 25 mm per 1 m of length. Notes:

1. Deviation from flatness of hot-rolled steel supplied in a heat-treated state without pickling is not standardized.

2. Longitudinal uniform bending (curvature that copies the shape of the roll - roll curvature) of cold-worked and semi-work-hardened rolled products cut from rolls is not a defective feature. (Changed edition, Amendment No. 2).

Examples of symbols

Hot-rolled sheets of normal accuracy (B), improved flatness (PU), with uncut edge (NO), size 3x710x1420 mm according to GOST 19903, made of steel grade 20X13, heat-treated, pickled, surface group M3b:

Cold-rolled sheets, increased precision: thickness (AT), width (AS), length (AD), normal flatness (PN), with cut edge (O), size 2x1000x2000 mm according to GOST 19904, made of steel grade 12Х18Н10Т, cold-worked:

Cold-rolled sheets, normal accuracy: thickness (BT), width (BS), length (BD), normal flat (PN), with cut edge (O), size 1.2x1100x2300 mm according to GOST 19904, made of steel grade 08Х13, heat-treated, etched, surface group M2a:

(Changed edition, Amendment No. 4).

TECHNICAL REQUIREMENTS

3.1. Rolled products are produced in the following grades: 11Х11Н2В2МФ, 16Х11Н2В2МФ, 20Х13, 30Х13, 40Х13, 09Х16Н4Б, 12Х13, 14Х17Н2, 08Х13, 12Х17, 08Х17Т, 08Х18Тч, 08Х18Т1, 1 5Х25Т, 15Х28, 20Х13Н4Г9, 09Х15Н8У1, 07Х16Н6, 08Х17Н5М3, 20Х20Н14С2, 08Х22Н6Т, 12Х21Н5Т, 08Х21Н6М2Т , 20Х23Н13, 15Х18Н12С4ТУ, 10Х11Н20Т2Р, 10Х13Г18Д, 10Х14Г14Н4Т, 10Х14AG15, 12Х17Г9АN4, 03Х17Н14М3, 10Х17Н13М2Т, 10Х17Н13М3Т, 0 8Х17Н15М3Т, 12Х18Н9, 17Х18Н9, 08Х18Н10, 08Х18Н10Т, 12Х18Н10Т, 12Х18Н10Э, 03Х18Н11, 03Х18Н12-VI, 08Х18Н12Т, 08Х18Н12Б, 03Х21Н21 M4GB, 20Х23Н18, 20Х25Н20С2 , 12X25N16G7AR, 06XN28MT, 06XN28MDT.

3.2. The chemical composition of steels is in accordance with GOST 5632. Notes:

1. In steel grade 12Х21Н5Т, deviations in titanium content are not allowed. With the consent of the consumer, sheets can be produced with maximum deviations for titanium in accordance with GOST 5632.

2. For steel grade 12Х18Н10Т, rolled on continuous and semi-continuous mills, the titanium content should be [5 (C - 0.02) - 0.7]%, and the ratio of chromium to nickel content should not exceed 1.8.

3.1, 3.2. (Changed edition, Amendment No. 2).

3.3. The macrostructure of the steel should not have traces of shrinkage cavities, delaminations, foreign inclusions, cracks and bubbles and is ensured by the manufacturing technology. There should be no cracks, splits or delaminations in the sheet cuts.

3.4. The mechanical properties of rolled products subjected to heat treatment (softening) must comply with the standards specified in Table 1.

Table 1

steel gradeHeat treatment mode for sheets (recommended) Tensile strength, N/mm(kgf/mm) Yield strength, N/mm(kgf/mm) Relative extension, , %
no less
11Х11Н2В2МФAnnealing 760−780 °CNo more than 830 (85)22
16Х11Н2В2МФ
20Х13Annealing or tempering 740−800 °C490 (50)20
30Х13540 (55)17
40Х13550 (56)15
09Х16Н4БAnnealing 620−640 °C, holding for 4−8 hours, cooling with a furnace to 200−300 °C, then in airNo more than 1130 (115)
12Х13Annealing or tempering 740−780 °C440 (45)21
14Х17Н2Annealing or tempering 650−700 °CBy agreement
08Х13Annealing or tempering 740−780 °C410 (42)21
12Х17490 (50)20
08Х17ТAnnealing or tempering 740−780 °C460 (47)20
Annealing 830−860 °C, cooling in air or normalization at 960−1000 °C, cooling in air or water460 (47)30
08Х18ТчHardening 920 °C, cooling in water470 (48)35
08Х18Т1Annealing 830−860 °C, cooling in air or normalization 960−1000 °C, cooling in air or water460 (47)30
15Х25ТAnnealing or tempering 740−780 °C530 (54)17
20Х13Н4Г9Quenching 1050−1080 °C, cooling in water or air640 (65)40
15Х28Annealing or tempering 740−780 °C530 (54)17
09Х15Н8У1Normalization 1040−1080 °CNo more than 1080 (110)20
07Х16Н6Quenching 1030−1070 °C, cooling in water or airNo more than 1180 (120)20
08Х17Н5М3Quenching 1030−1080 °C, cooling in air or waterNo more than 1180 (120)610 (62)20
20Х20Н14С2Quenching 1000−1080 °C, cooling in air or water590 (60)40
08Х22Н6ТQuenching 950−1050 °C, cooling in water or air640 (65)20
12Х21Н5ТQuenching 1000−1080 °C, cooling in water or air690 (70)440 (45)18
08Х21Н6М2Т590 (60)22
20Х23Н13Quenching 1100−1150 °C, cooling in water or air540 (55)35
15Х18Н12С4ТУQuenching 1020−1050 °C, cooling in water720 (73)345 (35)30*
10Х11Н20Т2РQuenching 1020−1060 °C, cooling in water or airNo more than 740 (75)
10Х14Г14Н4ТQuenching 1050−1080 °C, cooling in water690 (70)295 (30)35
10X14AG15Quenching 950−1100 °C, cooling in water740 (975)45
12X17G9AN4Quenching 1050−1080 °C, cooling in water or air690 (70)40
03Х17Н14М3Quenching 1030−1070 °C, cooling in water or air490 (50)196 (20)
10Х17Н13М2ТQuenching 1050−1080 °C, cooling in water or air530 (54)225 (23)38
10Х17Н13М3Т
08Х17Н15М3Т205 (21)35
12Х18Н9540 (55)195 (20)38
17Х18Н9590 (60)35
08Х18Н10510 (52)185 (19)45
08Х18Н10Т530 (54)205 (21)40
12Х18Н10Т205 (21)
12Х18Н10ЭNo more than 740 (75)35
03Х18Н11490 (50)196 (20)
03Х18Н12-VI390 (40)40
08Х18Н12Т510 (52)35
08Х18Н12Б530 (54)40
03Х21Н21М4ГБQuenching 1080−1130 °C, cooling in water or air540 (55)245 (25)25**
20Х23Н18Quenching 1080−1150 °C, cooling in water or air510 (52)35
20Х25Н20С2Quenching 1050−1100 °C, cooling in water or air490 (50)
12X25N16G7ARNo more than 980 (100)
06ХН28МТQuenching 1050−1080 °C, cooling in water or air540 (55)
06ХН28МДТ540 (55)

___________________ * Relative extension . ** Relative extension . Notes:

1. The table shows the recommended mode and type of heat treatment at the manufacturer.

2. By agreement between the consumer and the manufacturer, changes in the mode and type of heat treatment are allowed.

3. For hot-rolled steel grades 20Х13, 30Х13, 40Х13, 08Х17Т, 12Х13, 14Х17Н2, 08Х13, 12Х17, 08Х18Т1, 15Х25Т, 15Х28, it is allowed not to perform heat treatment when obtaining the mechanical properties indicated in Table 1.

4−6. Excluded. By agreement between the manufacturer and the consumer, rolled steel grades 08Х18Т1, 10Х17Н13М2Т, 10Х17Н13М3Т, 08Х18Н10Т, 12Х18Н10Т, 20Х23Н18 are manufactured with increased values ​​of mechanical properties indicated in Table 1a.

Table 1a

steel gradeHeat treatment mode for sheets (recommended) Tensile strength, N/mm(kgf/mm) Yield strength, N/mm(kgf/mm) Relative extension, , %
no less
08Х18Т1Annealing 830−860 °C, cooling in air or normalization 960−1000 °C, cooling in air or water490 (50)32
10Х17Н13М2ТQuenching 1050−1080 °C, cooling in water or air550 (56)40
10Х17Н13М3Т
08Х18Н10Т216 (22)42
12Х18Н10Т
20Х23Н18Quenching 1080−1150 °C, cooling in water or air530 (54)37

(Changed edition, Amendment No. 1−4).

3.5. The mechanical properties of cold-worked and semi-work-hardened steel must comply with the standards specified in Table 2.

table 2

steel gradeDelivery status Tensile strength, N/mm(kgf/mm) Yield strength, N/mm(kgf/mm) Relative extension, , %
No less
20Х13Н4Г9HardenedAt least 980 (100)15
15Х18Н12С4ТУAt least 880 (90)685 (70)10
12X17G9AN4At least 980 (100)15
12Х18Н9930−1230 (95−125)13
17Х18Н9980−1230 (100−125)
17Х18Н9Semi-hardened740−980 (75−100)18
08Х18Н10740−930 (75−95)25
08Х18Н10HardenedAt least 930 (95)10
12Х18Н10ТSemi-hardenedAt least 740 (75)25
12Х18Н10ТHardened880−1080 (90−110)10
03Х18Н12-VISemi-hardenedAt least 740 (75)12

Notes:

1. Excluded.

2. By agreement between the consumer and the manufacturer, heat treatment may be used to ensure the properties specified in Table 2. (Changed edition, Amendment No. 2).

3.6. The mechanical properties of rolled products, determined on control heat-treated samples, must comply with the standards specified in Table 3.

3.7. The mechanical properties of rolled steel grades 12Kh18N10T, 12Kh25N16G7AR and 10Kh11N20T2R, determined at the request of the consumer at elevated temperatures on heat-treated samples, must comply with the standards specified in Table. 4.

Table 3

steel gradeSample thermal treatment mode (recommended) Tensile strength, N/mm(kgf/mm) Yield strength, N/mm(kgf/mm) Relative extension, , %
no less
11Х11Н2В2МФQuenching 1000−1150 °C, air cooling, tempering 560−600 °C, air cooling880 (90)10
16Х11Н2В2МФQuenching 960−1000 °C, air cooling, tempering 240−400 °C, air cooling1320 (135)
09Х16Н4БQuenching 970−1050 °C, air cooling, tempering 300−350 °C, holding 2 hours, air cooling1230 (125)8
14Х17Н2Quenching 950−975 °C, cooling in oil, tempering 275−350 °C, air cooling1080 (110)10
07Х16Н6Quenching 960−990 °C, air cooling, cold treatment at -70 °C for 2 hours, tempering 350−400 °C, holding for 1 hour, air cooling835 (85)12
08Х17Н5М3Quenching (940±10) °C, cooling in air or water, cold treatment at -70 °C for 2 hours, tempering (450±10) °C, holding for 1 hour, cooling in air1180 (120)885 (90)9
10Х11Н20Т2РHardening 1020−1060 °C, cooling in water or air, aging (720±10) °C, holding 4−12 hours, cooling in air960 (98)20

(Changed edition, Amendment No. 2).

Table 4

steel gradeHeat treatment modeTest temperature, °C Tensile strength, N/mm(kgf/mm) Relative extension, , %
no less
12Х18Н10ТQuenching 1050−1080 °C, cooling in water or air700250 (25)40
12X25N16G7ARQuenching 1050−1100 °C, cooling in water or air900180 (18)30
10Х11Н20Т2РHardening 1020−1060 °C, cooling in water or air, aging (720±10) °C, holding for 8 hours, cooling in air700590 (60)10

Note. Steel is hardened in sheets. (Changed edition, Amendment No. 2).

3.8. In terms of type and surface quality, rolled products must meet the requirements specified in Table 5.

Table 5

Surface groupMaterial conditionSurface descriptionName of allowed surface defectsMaximum depth of permissible defects
1Cold-worked (N) and semi-hardened (PN)Shiny without blistering bubbles, rolled out bubbles, captivity, rolled-in metal particles, ripples and over-etching, with a slight difference in shadesScratches, dents, prints, marks, rolled out prints sums of maximum deviations in thickness
2a) Cold rolled, heat treated, pickled or after bright annealingSilver-matte or shiny, without blistering bubbles, rolled out bubbles, captivity, rolled-in metal particles, scale and over-etchingRipple, scratches, prints, dents, marks, rolled out prints
b) Hot rolled, heat treated, pickled or after bright annealingRipple, scratches, prints, dents, scratches, cavities, rolled out prints
3a) Cold rolled, heat treated, pickled or after bright annealingRipple, scratches, prints, dents, marks, rolled out printsSum of maximum deviations in thickness
b) Hot rolled, heat treated, pickled or after bright annealingRipple, scratches, prints, dents, scratches, cavities, rolled out prints
4a) Cold rolled, heat treated, pickled or after bright annealingSilver-matte or shiny without blistering bubbles, rolled bubbles, scale and over-etchingRipple, scratches, prints, dents, risks, rolled films, rolled prints
b) Hot rolled, heat treated, pickled or after bright annealingRipple, scratches, prints, dents, scratches, cavities, rolled prints, rolled films
c) Cold rolled, heat treatedDarkRipple, scratches, prints, dents, scratches, rolled films, rolled prints, scale
d) Hot rolled, heat treatedRipple, scratches, prints, dents, scratches, cavities, rolled films, rolled prints, scale

Notes:

1. Requirements for the surface quality of heat-treated rolled products in terms of the number and nature of defects can be specified by agreement between the consumer and the manufacturer using standards.

2. Gentle grinding of surface defects is allowed with abrasive with a grain size in accordance with GOST 3647, no larger than N 16 for groups 1 and 2 and with a grain size no larger than N 25 for groups 3 and 4 to a depth that does not take the rolled product beyond the minimum thickness. Arson from clean-up operations is not permitted.

3. At the consumer’s request, rental products are manufactured without cleaning or cutting out unacceptable defects.

4. Colors of tarnish and various shades from pickling on cold-rolled and hot-rolled, heat-treated steel by pickling or after bright annealing are not a defective sign. (Changed edition, Amendment No. 2, 4).

3.9. Steel grades 20Х13Н4Г9, 09Х15Н8У1, 08Х22Н6Т, 08Х21Н6М2Т, 10Х14Г14Н4Т, 12Х17Н14МЗ, 10Х17Н13М2Т, 10Х17Н13МЗТ, 08Х17Н15МЗТ, 12Х18Н9, 08Х18Н10, 08Х18Н10Т, 12Х18Н10Т, 12Х18Н10Э, 03Х18Н11, 03Х18Н12-VI, 08Х18Н12Т, 08Х18Н12Б, 03Х21Н21М4ГБ, 06ХН28МДТ and 06ХН 28MT should not have prone to intergranular corrosion.

3.10. At the consumer's request, sheets are produced:

a) with checking steel grade 12Х21Н5Т for lack of tendency to embrittlement, the heat treatment regime and standards must correspond to those indicated in Table 6.

Table 6

Sample thermal treatment modeSheet thickness, mmIncrement of temporary resistance, %, no more Impact strength kgf m/cm, not less
Heating to 550 °C, holding for 1 hour, cooling in an oven (at a rate of 100 °C/h) to 300 °C, then cooling in airUp to 250,0*
2 or more4,0

_______________ * The increment in tensile strength after tempering is determined as a percentage of the tensile strength of heat-treated soft rolled products.

b) with normalized surface roughness of cold-worked and semi-work-hardened steel;

c) with normalization of the gas content in steel grade 03Х18Н12-VI, which should not exceed: oxygen - 0.006%, nitrogen - 0.03%;

d) without mechanical tests and other tests provided for by this standard;

e) with the determination of mechanical properties at elevated temperatures for steel grades not listed in Table 4;

f) with the determination of the yield strength for steel grades, the norms of the yield strength of which are not given in Table 1;

g) with bending test;

h) with bending test;

i) with a spherical hole drawing test;

j) with the determination of the alpha phase in austenitic and austenitic-ferritic steels;

k) with checking for the absence of steel’s tendency to intergranular corrosion for steel grades not specified in GOST 6032*; ______________ * GOST 6032–2003 is in force on the territory of the Russian Federation, hereinafter in the text. — Note from the database manufacturer.

l) with checking for the absence of steel’s tendency to intergranular corrosion for steel grades 08Х17Т, 15Х25Т, 07Х16Н6, 08Х17Н5М3;

m) with control of internal defects using non-destructive testing methods. Note. Test methods for subparagraphs k, l, n, as well as test standards for subparagraphs b, d, e-n are established by agreement between the consumer and the manufacturer. (Changed edition, Amendment No. 1).

Manufacturing by profiling

In cases where square or rectangular stainless pipes are required in small volumes, it makes no sense to purchase expensive full-cycle equipment for their production. It is possible to produce such pipes, which will also meet all GOST requirements, by profiling round pipe blanks.

Along with the advantages of this technology, namely that its use requires less initial investment and can be implemented even in a small room, its use also has a big disadvantage. It lies in the fact that profile stainless steel pipes produced using this technology are more expensive than welded products.

Forming machine shapes round tube into square or rectangular shape

Considering the fact that the vast majority of both square and rectangular pipes made of stainless steel are not used in cases where high tightness is required from them, it is better to use inexpensive profile pipes obtained using welding.

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