General
Property | Temperature | Value |
---|---|---|
Densidad | 23.0 °C | 8.1 g/cm³ Show Supplier Material materials with Densidad of 8.1 g/cm³ |
Mecánica
Property | Temperature | Value | Comment |
---|---|---|---|
Dureza Brinell | 23.0 °C | 217 [-] Show Supplier Material materials with Dureza Brinell of 217 [-] | max. |
Elongación A5 | 23.0 °C | 30 % Show Supplier Material materials with Elongación A5 of 30 % | for 20 to 300°C |
Límite elástico Rp 0,2 | 20.0 °C | 240 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 240 MPa | |
100.0 °C | 210 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 210 MPa | ||
150.0 °C | 195 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 195 MPa | ||
200.0 °C | 180 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 180 MPa | ||
250.0 °C | 170 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 170 MPa | ||
300.0 °C | 160 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 160 MPa | ||
Límite elástico Rp 1,0 | 20.0 °C | 280 MPa Show Supplier Material materials with Límite elástico Rp 1,0 of 280 MPa | |
100.0 °C | 250 MPa Show Supplier Material materials with Límite elástico Rp 1,0 of 250 MPa | ||
150.0 °C | 235 MPa Show Supplier Material materials with Límite elástico Rp 1,0 of 235 MPa | ||
200.0 °C | 220 MPa Show Supplier Material materials with Límite elástico Rp 1,0 of 220 MPa | ||
250.0 °C | 210 MPa Show Supplier Material materials with Límite elástico Rp 1,0 of 210 MPa | ||
300.0 °C | 200 MPa Show Supplier Material materials with Límite elástico Rp 1,0 of 200 MPa | ||
Módulo elástico | 20.0 °C | 202 GPa Show Supplier Material materials with Módulo elástico of 202 GPa | |
100.0 °C | 198 GPa Show Supplier Material materials with Módulo elástico of 198 GPa | ||
200.0 °C | 192 GPa Show Supplier Material materials with Módulo elástico of 192 GPa | ||
300.0 °C | 185 GPa Show Supplier Material materials with Módulo elástico of 185 GPa | ||
400.0 °C | 179 GPa Show Supplier Material materials with Módulo elástico of 179 GPa | ||
500.0 °C | 172 GPa Show Supplier Material materials with Módulo elástico of 172 GPa | ||
600.0 °C | 164 GPa Show Supplier Material materials with Módulo elástico of 164 GPa | ||
700.0 °C | 157 GPa Show Supplier Material materials with Módulo elástico of 157 GPa | ||
Resistencia a la tracción | 20.0 °C | 550 MPa Show Supplier Material materials with Resistencia a la tracción of 550 MPa | |
100.0 °C | 520 MPa Show Supplier Material materials with Resistencia a la tracción of 520 MPa | ||
150.0 °C | 505 MPa Show Supplier Material materials with Resistencia a la tracción of 505 MPa | ||
200.0 °C | 495 MPa Show Supplier Material materials with Resistencia a la tracción of 495 MPa | ||
250.0 °C | 480 MPa Show Supplier Material materials with Resistencia a la tracción of 480 MPa | ||
300.0 °C | 470 MPa Show Supplier Material materials with Resistencia a la tracción of 470 MPa | ||
Aplicaciones térmicas
Property | Temperature | Value |
---|---|---|
Calor específico | 20.0 °C | 456 J/(kg·K) Show Supplier Material materials with Calor específico of 456 J/(kg·K) |
100.0 °C | 466 J/(kg·K) Show Supplier Material materials with Calor específico of 466 J/(kg·K) | |
200.0 °C | 476 J/(kg·K) Show Supplier Material materials with Calor específico of 476 J/(kg·K) | |
300.0 °C | 485 J/(kg·K) Show Supplier Material materials with Calor específico of 485 J/(kg·K) | |
400.0 °C | 492 J/(kg·K) Show Supplier Material materials with Calor específico of 492 J/(kg·K) | |
500.0 °C | 500 J/(kg·K) Show Supplier Material materials with Calor específico of 500 J/(kg·K) | |
600.0 °C | 508 J/(kg·K) Show Supplier Material materials with Calor específico of 508 J/(kg·K) | |
700.0 °C | 515 J/(kg·K) Show Supplier Material materials with Calor específico of 515 J/(kg·K) | |
Coeficiente de dilatación térmica | 100.0 °C | 1.5E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.5E-5 1/K |
200.0 °C | 1.56E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.56E-5 1/K | |
300.0 °C | 1.6E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.6E-5 1/K | |
400.0 °C | 1.64E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.64E-5 1/K | |
500.0 °C | 1.67E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.67E-5 1/K | |
600.0 °C | 1.71E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.71E-5 1/K | |
700.0 °C | 1.74E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.74E-5 1/K | |
Conductividad térmica | 20.0 °C | 11.5 W/(m·K) Show Supplier Material materials with Conductividad térmica of 11.5 W/(m·K) |
100.0 °C | 13 W/(m·K) Show Supplier Material materials with Conductividad térmica of 13 W/(m·K) | |
200.0 °C | 14.8 W/(m·K) Show Supplier Material materials with Conductividad térmica of 14.8 W/(m·K) | |
300.0 °C | 16.5 W/(m·K) Show Supplier Material materials with Conductividad térmica of 16.5 W/(m·K) | |
400.0 °C | 18.2 W/(m·K) Show Supplier Material materials with Conductividad térmica of 18.2 W/(m·K) | |
500.0 °C | 19.8 W/(m·K) Show Supplier Material materials with Conductividad térmica of 19.8 W/(m·K) | |
600.0 °C | 21.5 W/(m·K) Show Supplier Material materials with Conductividad térmica of 21.5 W/(m·K) | |
700.0 °C | 23 W/(m·K) Show Supplier Material materials with Conductividad térmica of 23 W/(m·K) | |
Temperatura de fusión | 1380 - 1420 °C Show Supplier Material materials with Temperatura de fusión of 1380 - 1420 °C |
Eléctrico
Property | Temperature | Value |
---|---|---|
Resistividad eléctrica | 20.0 °C | 1.07E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.07E-6 Ω·m |
100.0 °C | 1.1E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.1E-6 Ω·m | |
200.0 °C | 1.13E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.13E-6 Ω·m | |
300.0 °C | 1.16E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.16E-6 Ω·m | |
400.0 °C | 1.19E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.19E-6 Ω·m | |
500.0 °C | 1.21E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.21E-6 Ω·m | |
600.0 °C | 1.23E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.23E-6 Ω·m | |
700.0 °C | 1.25E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.25E-6 Ω·m | |
Magnético
Property | Temperature | Value | Comment |
---|---|---|---|
Permeabilidad magnética relativa | 23.0 °C | 1 [-] Show Supplier Material materials with Permeabilidad magnética relativa of 1 [-] | max. |
Chemical properties
Property | Value | Comment | |
---|---|---|---|
Azufre | 0.035 % Show Supplier Material materials with Azufre of 0.035 % | max. | |
Carbono | 0.07 % Show Supplier Material materials with Carbono of 0.07 % | max | |
Cobre | 3 - 4 % Show Supplier Material materials with Cobre of 3 - 4 % | ||
Cromo | 19 - 21 % Show Supplier Material materials with Cromo of 19 - 21 % | ||
Fósforo | 0.05 % Show Supplier Material materials with Fósforo of 0.05 % | max. | |
Hierro | Balance | ||
Manganeso | 2 % Show Supplier Material materials with Manganeso of 2 % | max. | |
Molibdeno | 2 - 3 % Show Supplier Material materials with Molibdeno of 2 - 3 % | ||
Niobio | 0.56 - 1 % Show Supplier Material materials with Niobio of 0.56 - 1 % | Nb+Ta | |
Níquel | 32 - 38 % Show Supplier Material materials with Níquel of 32 - 38 % | ||
Silicona | 1 % Show Supplier Material materials with Silicona of 1 % | max. | |
Tántalo | 0.56 - 1 % Show Supplier Material materials with Tántalo of 0.56 - 1 % | Nb+Ta |
Technological properties
Property | ||
---|---|---|
Application areas | Nicrofer 3620 Nb is used in a wide variety of applications up to temperatures of approximately 500°C. Typical applications are: Equipment for the manufacture of sulphuric acid and for processes based on sulphuric acid, extraction columns in the production of amines and the processing of pharmaceuticals, production of plastics and synthetic fibres, equipment for food processing to protect against contamination. | |
Cold Forming | Cold working should be carried out on annealed material. Nicrofer 3620 Nb has a work-hardening rate similar to that of austenitic stainless steel and the forming equipment must be adapted accordingly. When cold working is performed, interstage annealing may become necessary. After cold reductions of more than 15 %, a final stabilising anneal is required before use. | |
Corrosion properties | Nicrofer 3620 Nb has excellent corrosion resistance to sulphuric, phosphoric and organic acids and to aqueous solutions of their salts. Resistance to nitric acid is also good. Due to the controlled chemical composition, the alloy also has excellent resistance to such forms of corrosion as intergranular corrosion and stress corrosion. The molybdenum content ensures good resistance to pitting and crevice corrosion. Optimum corrosion resistance can only be obtained if the material is in the correct metallurgical condition and clean. | |
General machinability | Nicrofer 3620 Nb should be machined in annealed condition. The alloy’s high work-hardening rate should be considered, i.e. only low surface cutting speeds are possible compared with low-alloy standard austenitic stainless steel. Tools should be engaged at all times. Heavy feeds are important in getting below the work-hardened ‘skin’. | |
Heat Treatment | Soft or stabilising annealing should be carried out in the temperature range 920 to 960°C (1690 to 1760°F), preferably at about 950°C (1740°F). Water quenching or rapid air cooling is recommended for thicknesses above about 3 mm (1/8 in.) and is essential for maximum corrosion resistance. Stress-relief annealing may be performed at temperatures up to 540°C (1000 °F). During any heating operation, the precautions outlined earlier regarding cleanliness must be observed. | |
Hot forming | Nicrofer 3620 Nb may be hot-worked in the range 1150 to 900°C (2100 to 1650°F). The final hot-working temperature must not exceed 950°C (1740°F). Cooling should be by water quenching or as fast as possible. Annealing after hot working is required to ensure maximum corrosion resistance and an optimum microstructure. For hot working, the material may be charged into the furnace at maximum working temperature. After soaking for the required time the material should be withdrawn immediately and worked within the specifed range. If the metal temperature falls below the minimum working temperature, it must be reheated. | |
Other | Nicrofer 3620 Nb has a face-centred cubic structure. The balanced chemical composition and optimum annealing temperature promote the formation of niobium carbides and ensure that the corrosion resistance is not impaired by sensitisation. | |
Welding | Nicrofer 3620 Nb can be welded by all the conventional methods. Proven welding processes are: GTAW (TIG), GMAW (MIG), Plasma, PHW, SMAW. Pulsed arc welding is the preferred technique. Prior to welding, material should be in annealed condition, clean and free from scale, grease, marking paints, etc. A zone approximately 25 mm (1 in.) wide on each side of the joint should be ground to bright metal. Sometimes tarnishing can be removed by brushing the joint in the warm condition. Low heat input is necessary. The interpass temperature should not exceed 120 °C (250 °F). Neither pre- nor post-weld heat treatment is required. |