00Cr27Mo3Ni2TiNb
00Cr27Mo3Ni2TiNbChemical composition:
Fe | Cr | Ni | Mo | Ti | V | B | C | AI | Si | Mn | P | S | |
Min | Bal | 13 | 24.5 | 1 | 2.4 | 0.01 | 0.005 | ≤ | |||||
Max | 16 | 28.5 | 1.75 | 3.2 | 0.1 | 0.025 | 0.06 | 0.35 | 0.35 | 0.75 | 0.025 | 0.025 |
00Cr27Mo3Ni2TiNbPhysical properties:
Densityp
/g·cm~3 |
Linear expansion coefficienta/10-6·K-1 | ThermalconductivityA/W·(m·K)-1 | Specific heat capacityc/J · (kg·K)-1room temperature | ||||
20~100℃ | 20~150℃ | 20~250 ℃ | 20℃ | 150℃ | 200℃ | ||
7.8 | 9.68 | 9.77 | 10.66 | 15.9 | 19.5 | 20.6 | 500 |
00Cr27Mo3Ni2TiNbMechanical properties:
Temperature/℃ | d,z/MPa | σb/MPa | δ/% |
23 | 517 | 620 | 25 |
93 | 455 | 572 | 24 |
149 | 392 | 538 | 23 |
204 | 365 | 517 | 21 |
260 | 345 | 517 | 21 |
00Cr27Mo3Ni2TiNbAlloy properties:
The microstructure of this steel is the same as that of all super ferritic stainless steels, and the matrix structure of this steel has a body-centered cubic ferrite structure, and when heated at medium temperature (sensitized or welded heat-affected zone), there will be intermetallic compounds such as carbon, nitride and σ on the matrix, which will adversely affect the properties of the steel.
00Cr27Mo3Ni2TiNb Uses of alloys:
This steel is mainly used for seawater corrosion-resistant pipelines, seawater condensers, heat exchangers, etc., and the price is far cheaper than copper, copper alloys and titanium.
00Cr27Mo3Ni2TiNbProcess performance:
Welding process: HuaNickel 00Cr27Mo3Ni2TiN steel has good welding performance. It can be welded by common welding methods of stainless steel, such as GTAW (with or without wire filling), GMAW, SMAW, etc.
Heat treatment: HuaNickel 00Cr27Mo3Ni2TiNb The suitable heat treatment temperature is 950~1100 °C, and it is quickly cooled after heating and heat preservation.
Relevant standards:
ASTM A268/A268M-2020