Steel 02Х8Н22С6 (ЭП794)
Steel 16Х12В2ФТаР (EC181)
Steel 17Х18Н9 (2Х18Н9)
Steel 15Х16Н2АМ (EP479)
Steel 14Х20Н25В5МБ (LZhT)
Steel 14Х17Н2 (ЭИ268)
Steel 13Х16Н3М2АФ (VNS57)
Steel 12Х18Н9 (Х18Н9)
Steel 12Х12М1БФР (EP450)
Steel 11Х17Н
Steel 10Х25Н6АТМФ
Steel 10Х20Н33Б
10X18H9 steel
10X18N10T steel (EP502)
Steel 10Х12Н3М2БФ
Steel 10Х12Н20Т2 (EP452)
09Cr18Ni9 steel
Steel 09X17N (ChS130)
Steel 08Х20Н12АБФ
Steel 08X19H12TF
Steel 08Х16Н11М3
45X25H35BS steel
Steel CS 116-ID (EP753U-ID)
Steel 9Х13Н6ЛК4 (ЭИ928)
Steel 80X20NS (EP992)
Steel 50X25H35S2B
Steel 50Х25Н35В5К15С
Steel 50Х20Н35С2Б
Steel 50Kh15MFasch
Steel 4Х13Н6ЛВФ (EP354)
Steel 45Х28Н49В5С
Steel 08Cr13 (EI496)
Steel 45X25H20C2
Steel 45X25H20S
Steel 35Х24Н24Б
Steel 32Х13Н6К3М2БДЛТ (VNS-32; SES1)
Steel 30X23H7S
Steel 23Х15Н5АМ3 (18Х15Н6АМ3; VNS-9)
Steel 20Х13Н2ДМЮФ (DI96)
Steel 20X13 (02X13)
Steel 20Х12НМВБФАР (ЧС139)
Steel 02N15K10M5F5
Steel 03N18K8M3TU (ЗИ25)
Steel 03N18K1M3TU (ZI80)
Steel 03N17K10V10MT (EP836)
Steel 03N15K10M5F5 (EK169)
Steel 03N14Cr5M3Tu (OMC-2)
Steel 03N14H5M3T (EP777)
Steel 03N10Cr12D2T
Steel 02X8H22S6 (EP794)
Steel 02N18M3K3T (EK165; ČS101)
Steel 03N18K9M5TU (ChS4)
Steel 01N18K9M5T (EP637U)
Steel 015Cr18Nr15P30 (EP168B)
Steel 015Х18Н15Р26 (EP168А)
Steel 015Cr18Nr15P22 (EP167B)
Steel 015Cr18Nr15P17 (EP167A)
Steel 015Х18Н15Р13 (EP166Б)
Steel 015Cr18Nr15P09 (EP166A)
Steel 015N18M4TU (EP989; ČS5U)
Steel 015N18K13M5TU (EP948; ČS35)
Steel 05X12H2M
Steel 07Х25Н16АГ6Ф (EP750)
Steel 07Х15Н30В5М2 (ChS81)
Steel 07Х12НМФБ (ChS80)
Steel 07Х12НМБФ (EP609)
Steel 06Х16Н15М3БР (EP172)
Steel 06Х16Н15М2Г2ТФР (ЧС68)
Steel 06Х15Н6МВФБ (VNS16)
Steel 06X13H7D2 (EP898)
Steel 05Х12Н5К14М5ТВ (EP695)
Steel 08Х14Н2К3МФБ (EK93; VNS-51)
Steel 04Х16Н11М3Т (DI95)
Steel 03Х17Н14М3 (ЗИ66)
Steel 03Х13Н5М5К9 (VNL-6)
Steel 03Х12Н8МТю (ЗИ37)
Steel 03Х12Н8К5М2ТЮ (ЗИ90)
Steel 03Х11Н10М2Т1 (EP679)
Steel 03Х11Н10М2Т (EP678; VNS-17)
Steel 03N18M4TU (ChS25)
Steel 03N18M3TU (ChS5)
Designation
Name | The value |
---|---|
Designation GOST Cyrillic | 02Х8Н22С6 |
Designation GOST Latin | 02X8H22C6 |
Transliteration | 02H8N22S6 |
The chemical elements | 02Cr8Н22С6 |
Name | The value |
---|---|
Designation GOST Cyrillic | ЭП794 |
Designation GOST Latin | EP794 |
Transliteration | EhP794 |
The chemical elements | - |
Description
02Х8Н22С6 steel is used: for the production of chemical equipment operating in the environment of concentrated nitric acid at elevated temperature; welding wire.
Note
Low carbon steel corrosion resistant heat resistant Nickel-containing austenitic.
The steel is melted only by special methods — sh, PD, and ID.
Standards
Name | Code | Standards |
---|---|---|
Thermal and thermochemical treatment of metals | В04 | STP 26.260.484-2004 |
Bulls. Blanks. Slabs | В31 | TU 14-1-3164-81 |
Welding and cutting of metals. Soldering, riveting | В05 | TU 14-1-3233-81 |
Sectional and shaped rolling | В32 | TU 14-1-3812-84 |
Sheets and stripes | В33 | TU 14-1-5075-91, TU 14-1-5076-91 |
Pipes steel and connecting parts to them | В62 | TU 14-3-1024-81 |
Chemical composition
Standard | C | S | P | Mn | Cr | Si | Ni | Fe |
---|---|---|---|---|---|---|---|---|
TU 14-3-1024-81 | ≤0.02 | ≤0.02 | ≤0.03 | ≤0.6 | 7.5-10 | 5.4-6.7 | 21-23 | The rest |
Fe is the basis.
According to TU 14-3-1024-81, TU 14-1-3812-84 the chemical composition is given for steel grade 02Х8Н22С6 (EP794).
According to TU 14-1-3164-81 the chemical composition is given for steel grade 02X8N22S6 (EP794). Deviations in the carbon content by +0.010%, chromium, nickel and silicon by ± 0.10 each are allowed.
According to TU 14-1-3812-84 the chemical composition is given for steel grade 02Х8Н22С6 (EP794). Deviations in the content of chromium, nickel, silicon ± 0.10% each, carbon + 0.010% are allowed in the finished product. Limit deviations and the content of residual elements - according to GOST 5632.
According to TU 14-3-1024-81, TU 14-1-3812-84 the chemical composition is given for steel grade 02Х8Н22С6 (EP794).
According to TU 14-1-3164-81 the chemical composition is given for steel grade 02X8N22S6 (EP794). Deviations in the carbon content by +0.010%, chromium, nickel and silicon by ± 0.10 each are allowed.
According to TU 14-1-3812-84 the chemical composition is given for steel grade 02Х8Н22С6 (EP794). Deviations in the content of chromium, nickel, silicon ± 0.10% each, carbon + 0.010% are allowed in the finished product. Limit deviations and the content of residual elements - according to GOST 5632.
Mechanical characteristics
Section, mm | sT|s0,2, MPa | σB, MPa | d5, % | kJ/m2, кДж/м2 |
---|---|---|---|---|
The billet according to TU 14-1-3164-81. The longitudinal samples. Quenching in water from 1050 °C | ||||
≥176 | ≥568 | ≥45 | - | |
Bars on the other 14-1-3812-84. Quenching in water from 1050 °C | ||||
≥176 | ≥519 | ≥60 | ≥690 | |
Bars hot rolled and forged at STP 26.260.484-2004. Quenching in water from 1050-1070 °C | ||||
≥200 | ≥540 | ≥40 | - | |
Pipe cold and warm in the delivery condition on the other 14-3-1024-81 | ||||
≥196 | ≥588 | ≥35 | - |
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 |
kJ/m2 | Toughness |
Technological properties
Name | The value |
---|---|
Macrostructure and contamination | In the macrostructure of the billets on the other 14-1-3164-81 not toproceed traces of shrinkage, porosity, subcortical bubbles, cracks, foreign non-metallic inclusions, delaminations visible to the naked eye. The norm of non-metallic inclusions by the maximum score shall not exceed : oxides of stroke - 4,0, oxides of point - 2,0, silicates fragile - 4,0, silicates plastic - 1,0,, non-deformed silicates - 1,0, sulphides and 1.0. |
Features of heat treatment | The product of the steel subjected to quenching in water from 1050 °C. holding Time at the heating for hardening to products with a wall thickness up to 10 mm - 30 min, over 10 mm - 20 min + 1 min per 1 mm maximum thickness. |