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Steel 30ХГСН2МА (30KHGSNMA)

Steel 35KhSN3M1A (VKS-8) Steel 30Kh2GSN2VM (30Kh2GSN2M1; VL-1) Steel 30Kh2GSNVM (VL-1D) Steel 30Х2Н2СВМФА (VKS-3) Steel 30KhGSN2A (30KhGSNA) Steel 30KhGSN2MA (30KhGSNMA) Steel 30ХН3М1ФА (30ХН3М1Ф) Steel 30ХН3М2ФА (30ХН3М2Ф) Steel 32KhN8M1FK5A (VKS-6) Steel 34KhMA (34KhM) Steel 34KhN3MA (0KhN3M) Steel 35KhMA (35KhMAR) Steel 35KhN1M2FA Steel 35KHN3MFA (35KHN3MFAR) Steel 35ХС2Н3М1ФА (VKS-9) Steel 28ХНН3МФА (28ХН3МФ) Steel 36KHN3MFA (36KHN3MF) Steel 38Kh3SNMVFA (SP38) 38KhMFYUA steel 38KhN3MFA steel (38KhN3MF) 40GMFR steel Steel 40KhN2SVA (EI643) Steel 40KhN2SMA (EI643M) Steel 42Kh2GSNM (VKS-1) 43Kh3SNMVFA steel (SP43) Steel 45Г15Н9Х2ЮФ (EP769) 45Kh3NM2FA steel Steel АЦ28ХГН2АФБ Steel АЦ28ХГН3ФТ B2G steel X11MNAFB steel 20KhGSNM steel Steel 01N17K12M5T (EP845; VKS-240) Steel 02N18K9M5T (EP637A; VKS-210) Steel 03N18K8M5T (VKS-170; EK21) Steel 03N19K6M5TR (EP631) Steel 03Cr14H7V Steel 08Х15Н25Т2МФР (EP674) Steel 09Х16НМ2Д (EP887; VNS28) Steel 120G13 (EI256) 12Kh3GNMFBA steel Steel 15Х16Н3КАМФ2 (VNS-47; EK81) 15Kh2GMF steel 15Kh2NMFA steel Steel 16X16H3MAD (EP811; VSN21) Alloy 20ХГСН2МФА (DI107) Steel 28Kh3SNMVFA (SP28; EP326A) Steel 25Х12Н2В2М2Ф (EP311; VNS-6) Steel 25Х20Н9В2М (EP466) Steel 25Kh2GNTA Steel 25Х2ГНТРА Steel 25Х2Н4МФА Steel 25Kh2NMF (25Kh2NMFA) Steel 25KhGSNMA Steel 25KhN3MFA (25KhN3MFAR) Steel 25ХСНВФА (VP25) Steel 26ХН3М2ФА (26ХН3М2ФАA) Steel 26KhN3MF (26KhN3MFA) Steel 26KhN4MF (26KhN4MFA) Steel 27ХН3М2ФА (27ХН3М2Ф) Steel 27ХН3МФА (27ХН3МФ)

Designation

Name The value
Designation GOST Cyrillic 30ХГСН2МА
Designation GOST Latin 30XGCH2MA
Transliteration 30HGSN2MA
The chemical elements 30CrMnСН2Mo
Name The value
Designation GOST Cyrillic 30ХГСНМА
Designation GOST Latin 30XGCHMA
Transliteration 30HGSNMA
The chemical elements 30CrMnСНMo

Description

30ХГСН2МА steel is used: for the manufacture of long products; pipe, the most critical parts of the aircraft.

Note

High strength steel construction high-quality, bromocinnamaldehyde.

Standards

Name Code Standards
Pipes steel and connecting parts to them В62 GOST 21729-76, TU 14-3-674-78, TU 14-3-675-78
Classification, nomenclature and general norms В20 OST 1 90005-91
Norms of calculation and design В02 PI 1.2.053-78
Bulls. Blanks. Slabs В31 TU 14-1-1687-76, TU 1-92-156-90
Sectional and shaped rolling В32 TU 14-1-1885-85, TU 14-1-392-72

Chemical composition

Standard C S P Mn Cr Si Ni Fe Cu Mo
TU 14-1-1885-85 0.27-0.33 ≤0.011 ≤0.015 1-1.2 0.9-1.2 0.9-1.2 1.4-1.8 The rest ≤0.25 0.3-0.4
TU 14-3-674-78 0.28-0.34 ≤0.005 ≤0.025 0.8-1.1 0.8-1.1 0.9-1.2 1.8-2.1 The rest - 0.35-0.45
TU 14-1-392-72 0.27-0.34 ≤0.025 ≤0.025 0.8-1.1 0.9-1.2 0.9-1.2 1.4-1.8 The rest - 0.3-0.4
GOST 21729-76 0.27-0.34 ≤0.025 ≤0.025 1-1.3 0.9-1.2 0.9-1.2 1.4-1.8 The rest ≤0.2 0.3-0.45
Fe is the basis.
According to GOST 21729-76 the chemical composition is given for steel 30ХГСНМА. Steel grade 30ХГСНМА-ВД should have: manganese 1.00-1.20%, sulfur ≤ 0.011%, phosphorus ≤ 0.015%, total mass fraction of sulfur and phosphorus should not exceed 0.22%, when steel is smelted with skapprocess the mass fraction of copper should be ≤ 0.25%.
According to TU 14-3-674-78 the chemical composition is given for steel 30ХГСН2МА-ВД.
According to TU 14-1-392-72 the chemical composition is given for steel 30ХГСН2МА. In the finished rolled steel, subject to the requirements of the technical specification, deviations from the chemical composition standards are allowed in accordance with Table 2 of CSTM 1-950-70, except for carbon, the deviation in which is not allowed. The presence of residual copper in steel should not exceed 0.25%. To ensure the required grain size during steel smelting, it is allowed to introduce vanadium from the calculation of its content in steel no more than 0.10%. Vanadium is not determined by chemical analysis.
According to TU 14-1-1885-85 the chemical composition is given for steel 30ХГСН2МА-ВД. In steel, the sum of the content of phosphorus and sulfur should not exceed 0.022%. To ensure the required grain size, it is allowed to introduce vanadium in the steel smelting at the rate of its content in steel no more than 0.10%, the content of which in steel is not determined. The presence of tungsten to 0.20%, titanium to 0.030% is not a rejection sign. In the steel, partial replacement of molybdenum with tungsten is allowed. The total content of molybdenum and tungsten converted to molybdenum from the calculation: three parts by weight of tungsten replace one part by weight of molybdenum, should correspond to the content of molybdenum indicated in the table. In this case, the content of tungsten in steel should not exceed 0.30%. The permissible deviation in the content of manganese in steel is + 0.010 / -0.020%, in carbon content + 0.010%, in sulfur and phosphorus content, provided that their total content is not more than 0.022%. For steel certified by the Quality mark, the sulfur content in steel shall not exceed 0.010%, while deviations from the content of sulfur and phosphorus in steel are allowed, provided that their total content is not more than 0.021%.

Mechanical characteristics

Section, mm sT|s0,2, MPa σB, MPa d5, % y, % kJ/m2, кДж/м2 Brinell hardness number, MPa HRC
Pipe seamless cold drawn, cold rolled and toplocatie, heat-treated in the delivery condition according to GOST 21729-76
- ≥588 ≥15 - - - -
Gradation of performance properties of the finished heat-treated parts for OST 1 90005-91
- - 1470-1670 - - - 415-462 43.5-47.5
- - 1570-1810 - - - - 45.5-51
- - 1670-1860 - - - - 47.5-51.5
Bars of steel grade 30ХГСН2МА on the other 14-1-1885-85. Quenching in oil with 890-910 °C + Vacation at 200-300 °C, air cooling. In the graph KCU KCU values are shown along the fiber/KCU across the grain
≥1375 ≥1670 ≥9 ≥45 ≥588/343 ≤444 -
≥1375 ≥1620 ≥9 ≥45 ≥588/343 ≤444 -
Bars on the other 14-1-392-72. Quenching in oil at 890-910 °C + Vacation at 200-230 °C
- ≥1569 ≥9 ≥45 ≥588 - -
Bars and shapes. Quenching in oil with 890-910 °C + Vacation at 200-300 °C, air cooling
- ≥1570 ≥9 ≥45 ≥590 - -

Description mechanical marks

Name Description
Section Section
sT|s0,2 Yield strength or limit of proportionality with a tolerance for residual deformation of 0.2%
σB Limit short-term strength
d5 Elongation after rupture
y The relative narrowing
kJ/m2 Toughness
HRC Rockwell hardness (indenter diamond spheroconical)

Technological properties

Name The value
Macrostructure and contamination Macrostructure of steel when testing for the breaks in the longitudinal direction and transverse templeto selected from rolled, should not have shrinkage, porosity, bubbles, cracks, delamination, inclusions and placenow and defects of fracture, listed in Annex 3 GOST 10243. The Central porosity, point heterogeneity and phase separation in the square should not exceed 1 points; layer-by-layer crystallization and the bright loop - 3 points reference scales GOST 10243. All other defects under GOST 10243, are not allowed. Pollution steel non-metallic inclusions should be according to the average score is not higher (in points): oxides of point 1,5, 2,0 stroke oxides, silicates fragile 1,0, 1,0 silicates plastic, silicates, non-deformed 2,5, 2,5 sulfides, nitrides stroke and point 1,0.

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