0Cr20Ni70Mo3Cu2Ti
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0Cr20Ni70Mo3Cu2Ti Chemical composition:
| Ni | Cr | Mo | Cu | Ti | C | Fe | Si | Mn | P | S | |
| \Min | Bal | 19 | 2 | 1 | 0.4 | ≤ | |||||
| Max | 21 | 3 | 2 | 0.9 | 0.03 | 7 | 0.7 | 1 | 0.03 | 0.03 | |
0Cr20Ni70Mo3Cu2TiPhysical properties:
| Density | 8.1g/cm³ |
| Melting point | 1350~1390°C |
0Cr20Ni70Mo3Cu2TiMechanical properties:
| Solution treatment temperature/℃ | tensile strengthσb/Mpa≥ | Yield strength | Elongation |
| 1050~1100 | ≥ | ||
| 590 | 195 | 40 | |
0Cr20Ni70Mo3Cu2TiAlloy properties:
0Cr20Ni70Mo3Cu2Ti alloy is resistant to a variety of acidic media, including strong acids such as nitric acid and sulfuric acid, as well as certain organic acids; 0Cr20Ni70Mo3Cu2Ti alloy can still maintain its corrosion resistance and mechanical properties at high temperatures, which is suitable for applications in high temperature environments; 0Cr20Ni70Mo3Cu2Ti alloy has good machinability
0Cr20Ni70Mo3Cu2TiUses of alloys:
It is used in chemical equipment, oil and gas industry, power industry, aerospace, food processing, etc. Specific applications include heat treatment furnaces, exhaust systems, heat exchangers, pressure vessels, pipes, flanges, etc.
0Cr20Ni70Mo3Cu2TiProcess performance:
Welding performance: 0Cr20Ni70Mo3Cu2Ti alloy has good welding performance, and a variety of welding methods can be used, such as TIG welding, MIG welding, arc welding, etc.
Heat treatment: The annealing temperature is usually between 9801040°C, and the holding time depends on the thickness and size of the material; Solution treatment is to heat 0Cr20Ni70Mo3Cu2Ti alloy to a higher temperature (about 11001150°C) for a certain period of time
Relevant standards:GB/T 15008-2020