Steel 26ХН3М2ФА (26ХН3М2ФАА)
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 | 26ХН3М2ФА |
| Designation GOST Latin | 26XH3M2FA |
| Transliteration | 26HN3M2FA |
| The chemical elements | 26CrН3Mo2V |
| Name | The value |
|---|---|
| Designation GOST Cyrillic | 26ХН3М2ФАА |
| Designation GOST Latin | 26XH3M2FAA |
| Transliteration | 26HN3M2FAA |
| The chemical elements | 26CrН3Mo2VN |
Description
26ХН3М2ФА steel is used: for the manufacture of ingots for further production of forgings critical components of gas turbines and other products of power engineering; telecomanda rotors of low pressure; forged billets for rotors of troubleproof.
Note
Structural steel high-quality hromonikelemolibdenovyh.
Standards
| Name | Code | Standards |
|---|---|---|
| Metal forming. Forgings | В03 | TU 108.11.847-87 |
| Bulls. Blanks. Slabs | В31 | TU 108.11.889-87, TU 302.02.155-92, TU 108.1343-85 |
Chemical composition
| Standard | C | S | P | Mn | Cr | Si | Ni | Fe | Cu | V | Mo |
|---|---|---|---|---|---|---|---|---|---|---|---|
| TU 108.11.889-87 | 0.25-0.3 | ≤0.015 | ≤0.015 | 0.3-0.6 | 1.3-1.7 | ≤0.1 | 3.4-3.8 | The rest | ≤0.2 | 0.12-0.18 | 0.5-0.7 |
| TU 108.11.847-87 | 0.25-0.3 | ≤0.012 | ≤0.01 | 0.3-0.6 | 1.3-1.7 | ≤0.04 | 3.4-3.8 | The rest | ≤0.2 | 0.12-0.18 | 0.5-0.7 |
| TU 108.1343-85 | 0.25-0.3 | ≤0.015 | ≤0.015 | 0.3-0.6 | 1.3-1.7 | ≤0.1 | 3.4-3.8 | The rest | ≤0.2 | 0.12-0.18 | 0.5-0.7 |
Fe is the basis.
According to TU 108.11.847-87 the chemical composition is given for steel 26ХН3М2ФАА. In addition, the determination of the content of aluminum, antimony, lead, tin, bismuth and arsenic is carried out. The results are not delivery, but are entered in the passport.
According to TU 108.11.889-87, deviations in chemical composition are allowed: by carbon ± 0.010%, by chroma ± 0.050%, by manganese ± 0.020%, by molybdenum ± 0.020%, by vanadium ± 0.020%, by nickel -0.10% , for silicon +0,050%, for copper +0,050%. The total content of sulfur and phosphorus should not be more than 0.036% for smelting by a duplex process and in an electric furnace. The sulfur and phosphorus content after the use of the out-of-furnace refining and evacuation unit (OVPV) should not be more than 0.010% and 0.012%, respectively, for a sum of sulfur and phosphorus not more than 0.020%. The steel shall be melted according to the manufacturer's technical documentation using the UVRB unit. It is allowed to melt steel in an open-hearth furnace by a duplex process or in the main electric arc furnace.
According to TU 108.1343-85 the chemical composition is given for steel 26ХН3М2ФА. Deviations in chemical composition are allowed: by carbon ± 0.010%, by chroma ± 0.050%, by nickel -0.10%, by manganese, molybdenum and vanadium ± 0.020% each, by copper + 0.050%, by silicon + 0.050%.
According to TU 108.11.847-87 the chemical composition is given for steel 26ХН3М2ФАА. In addition, the determination of the content of aluminum, antimony, lead, tin, bismuth and arsenic is carried out. The results are not delivery, but are entered in the passport.
According to TU 108.11.889-87, deviations in chemical composition are allowed: by carbon ± 0.010%, by chroma ± 0.050%, by manganese ± 0.020%, by molybdenum ± 0.020%, by vanadium ± 0.020%, by nickel -0.10% , for silicon +0,050%, for copper +0,050%. The total content of sulfur and phosphorus should not be more than 0.036% for smelting by a duplex process and in an electric furnace. The sulfur and phosphorus content after the use of the out-of-furnace refining and evacuation unit (OVPV) should not be more than 0.010% and 0.012%, respectively, for a sum of sulfur and phosphorus not more than 0.020%. The steel shall be melted according to the manufacturer's technical documentation using the UVRB unit. It is allowed to melt steel in an open-hearth furnace by a duplex process or in the main electric arc furnace.
According to TU 108.1343-85 the chemical composition is given for steel 26ХН3М2ФА. Deviations in chemical composition are allowed: by carbon ± 0.010%, by chroma ± 0.050%, by nickel -0.10%, by manganese, molybdenum and vanadium ± 0.020% each, by copper + 0.050%, by silicon + 0.050%.
Mechanical characteristics
| sT|s0,2, MPa | σB, MPa | d5, % | y, % | kJ/m2, кДж/м2 | Brinell hardness number, MPa |
|---|---|---|---|---|---|
| Billet telecomandi rotors of low pressure in the delivery condition on the other 108.1343-85. In the delivery Condition specified procurement and direction and place the clippings in the sample. In the graph indicated the value of KCU KCV | |||||
| 588.4-755.1 | ≥706.1 | ≥15 | ≥40 | ≥784.5 | - |
| Forged blank parts of gas turbine installations. Heat-treated in the delivery condition | |||||
| 670-780 | - | ≥15 | ≥48 | ≥780 | ≤311 |
| Billet telecomandi rotors of low pressure in the delivery condition on the other 108.1343-85. In the delivery Condition specified procurement and direction and place the clippings in the sample. In the graph indicated the value of KCU KCV | |||||
| 588.4-755.1 | ≥706.1 | ≥15 | ≥40 | ≥784.5 | - |
| Forged blank parts of gas turbine installations. Heat-treated in the delivery condition | |||||
| 780-900 | - | ≥14 | ≥46 | ≥580 | ≤331 |
| Billet telecomandi rotors of low pressure in the delivery condition on the other 108.1343-85. In the delivery Condition specified procurement and direction and place the clippings in the sample. In the graph indicated the value of KCU KCV | |||||
| 539.4-755.1 | ≥637.4 | ≥14 | ≥35 | ≥588.4 | - |
| Forged blank parts of gas turbine installations. Heat-treated in the delivery condition | |||||
| ≥680 | - | ≥14 | ≥45 | - | - |
| Billet telecomandi rotors of low pressure in the delivery condition on the other 108.1343-85. In the delivery Condition specified procurement and direction and place the clippings in the sample. In the graph indicated the value of KCU KCV | |||||
| 764.9-902.2 | ≥833.6 | ≥14 | ≥40 | ≥588.4 | - |
| Forged blank parts of gas turbine installations. Heat-treated in the delivery condition | |||||
| 840-960 | - | ≥13 | ≥44 | ≥540 | ≤351 |
| Billet telecomandi rotors of low pressure in the delivery condition on the other 108.1343-85. In the delivery Condition specified procurement and direction and place the clippings in the sample. In the graph indicated the value of KCU KCV | |||||
| 764.9-902.2 | ≥833.6 | ≥14 | ≥40 | ≥490.3 | - |
| Forged blank parts of gas turbine installations. Heat-treated in the delivery condition | |||||
| ≥730 | - | ≥13 | ≥44 | - | - |
| Billet telecomandi rotors low-pressure HG TPP "Voyany" in the state of delivery on the other 108.1343-85. In the delivery Condition specified procurement and direction and place the clippings in the sample. In the graph indicated the value of KCU KCV | |||||
| 730-880 | ≥1010 | ≥15 | ≥45 | ≥780 | - |
| 730-880 | ≥1010 | ≥14 | ≥40 | ≥580 | - |
Description mechanical marks
| Name | Description |
|---|---|
| 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 |
