Inconel 601, an alloy material. At high temperatures, 601 exhibits excellent oxidation resistance, excellent carbonization resistance, and excellent oxidation resistance in sulfur-containing atmospheres. It also exhibits excellent mechanical properties and stress corrosion cracking resistance at both room and high temperatures. Due to the control of carbon content and grain size, 601 has a high creep fracture strength. Therefore, it is recommended to use 601 in fields above 500 ℃.
Alloy | Ni | Cr | Fe | C |
Inconel 601 | 58.0-63.0 | 21.0-25.0 | Remainder | ≤0.1 |
Mn | Si | S | Al | Cu |
≤1.00 | ≤0.50 | ≤0.15 | 1.0-1.7 | ≤1.00 |
Density [g/cm3]: 8.1
Melting point ° C: 1360-1411
Mechanical properties
Alloy and state | Tensile strength | Yield strength | Elongation rate |
Annealing treatment | 650 | 300 | 30 |
Solid solution treatment | 600 | 240 | 30 |
1. Excellent antioxidant properties at high temperatures
2. Excellent carbonization resistance
3. It has good antioxidant properties and sulfur-containing atmosphere
4. Excellent mechanical properties at both room and high temperatures
5. Excellent stress corrosion cracking resistance. Due to the control of carbon content and grain size, 601 has a high creep fracture strength. Therefore, it is recommended to use 601 in fields above 500 ℃.
An important property of 601 alloy is its ability to resist oxidation at temperatures up to 1180 ℃. Even under harsh conditions, such as heating and cooling cycles, 601 can generate a dense oxide film and achieve high resistance to peeling. 601 has excellent carbonization resistance. Due to its high chromium and aluminum content, 601 exhibits excellent oxidation resistance in high-temperature sulfur-containing atmospheres.
Inconel 601 is a standard engineering material that has great resistance to heat and corrosion. Inconel 601 also has high strength and good workability with excellent metallurgical stability and a high resistance to carburization. Inconel 601 is hardened and strengthened through a cold work process.
Inconel 601 has many different industrial applications, some of which include:
Radiant tubes
Power generation
Chemical processing
Catalyst support grids
Aerospace
Inconel 601, an alloy material. At high temperatures, 601 exhibits excellent oxidation resistance, excellent carbonization resistance, and excellent oxidation resistance in sulfur-containing atmospheres. It also exhibits excellent mechanical properties and stress corrosion cracking resistance at both room and high temperatures. Due to the control of carbon content and grain size, 601 has a high creep fracture strength. Therefore, it is recommended to use 601 in fields above 500 ℃.
Alloy | Ni | Cr | Fe | C |
Inconel 601 | 58.0-63.0 | 21.0-25.0 | Remainder | ≤0.1 |
Mn | Si | S | Al | Cu |
≤1.00 | ≤0.50 | ≤0.15 | 1.0-1.7 | ≤1.00 |
Density [g/cm3]: 8.1
Melting point ° C: 1360-1411
Mechanical properties
Alloy and state | Tensile strength | Yield strength | Elongation rate |
Annealing treatment | 650 | 300 | 30 |
Solid solution treatment | 600 | 240 | 30 |
1. Excellent antioxidant properties at high temperatures
2. Excellent carbonization resistance
3. It has good antioxidant properties and sulfur-containing atmosphere
4. Excellent mechanical properties at both room and high temperatures
5. Excellent stress corrosion cracking resistance. Due to the control of carbon content and grain size, 601 has a high creep fracture strength. Therefore, it is recommended to use 601 in fields above 500 ℃.
An important property of 601 alloy is its ability to resist oxidation at temperatures up to 1180 ℃. Even under harsh conditions, such as heating and cooling cycles, 601 can generate a dense oxide film and achieve high resistance to peeling. 601 has excellent carbonization resistance. Due to its high chromium and aluminum content, 601 exhibits excellent oxidation resistance in high-temperature sulfur-containing atmospheres.
Inconel 601 is a standard engineering material that has great resistance to heat and corrosion. Inconel 601 also has high strength and good workability with excellent metallurgical stability and a high resistance to carburization. Inconel 601 is hardened and strengthened through a cold work process.
Inconel 601 has many different industrial applications, some of which include:
Radiant tubes
Power generation
Chemical processing
Catalyst support grids
Aerospace
