General
Property | Temperature | Value |
---|---|---|
Densidad | 23.0 °C | 7.9 g/cm³ Show Supplier Material materials with Densidad of 7.9 g/cm³ |
Mecánica
Property | Temperature | Value | Comment |
---|---|---|---|
Alargamiento A2 | 23.0 °C | 30 % Show Supplier Material materials with Alargamiento A2 of 30 % | min. |
Creep strength 10^5 cycles | 600.0 °C | 127 MPa Show Supplier Material materials with Creep strength 10^5 cycles of 127 MPa | at 100000h, data contained in ASME Code Case 1987 and VdTÜV-Wb 434 |
625.0 °C | 106 MPa Show Supplier Material materials with Creep strength 10^5 cycles of 106 MPa | at 100000h, data contained in ASME Code Case 1987 and VdTÜV-Wb 434 | |
650.0 °C | 88 MPa Show Supplier Material materials with Creep strength 10^5 cycles of 88 MPa | at 100000h, data contained in ASME Code Case 1987 and VdTÜV-Wb 434 | |
675.0 °C | 71 MPa Show Supplier Material materials with Creep strength 10^5 cycles of 71 MPa | at 100000h, data contained in ASME Code Case 1987 and VdTÜV-Wb 434 | |
700.0 °C | 57 MPa Show Supplier Material materials with Creep strength 10^5 cycles of 57 MPa | at 100000h, data contained in ASME Code Case 1987 and VdTÜV-Wb 434 | |
750.0 °C | 40 MPa Show Supplier Material materials with Creep strength 10^5 cycles of 40 MPa | at 100000h, data contained in ASME Code Case 1987 and VdTÜV-Wb 434 | |
800.0 °C | 27 MPa Show Supplier Material materials with Creep strength 10^5 cycles of 27 MPa | at 100000h, data contained in ASME Code Case 1987 and VdTÜV-Wb 434 | |
850.0 °C | 19 MPa Show Supplier Material materials with Creep strength 10^5 cycles of 19 MPa | at 100000h, data contained in ASME Code Case 1987 and VdTÜV-Wb 434 | |
900.0 °C | 13 MPa Show Supplier Material materials with Creep strength 10^5 cycles of 13 MPa | at 100000h, data contained in ASME Code Case 1987 and VdTÜV-Wb 434 | |
950.0 °C | 8.6 MPa Show Supplier Material materials with Creep strength 10^5 cycles of 8.6 MPa | at 100000h, data contained in ASME Code Case 1987 and VdTÜV-Wb 434 | |
1000.0 °C | 6.2 MPa Show Supplier Material materials with Creep strength 10^5 cycles of 6.2 MPa | at 100000h, data contained in ASME Code Case 1987 and VdTÜV-Wb 434 | |
1050.0 °C | 4 MPa Show Supplier Material materials with Creep strength 10^5 cycles of 4 MPa | at 100000h, data contained in ASME Code Case 1987 and VdTÜV-Wb 434 | |
1100.0 °C | 2.7 MPa Show Supplier Material materials with Creep strength 10^5 cycles of 2.7 MPa | at 100000h, data contained in ASME Code Case 1987 and VdTÜV-Wb 434 | |
Dureza Rockwell B | 23.0 °C | 90 [-] Show Supplier Material materials with Dureza Rockwell B of 90 [-] | max. |
Elongación | 23.0 °C | 35 % Show Supplier Material materials with Elongación of 35 % | min. |
Límite elástico Rp 0,2 | 20.0 °C | 172 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 172 MPa | min. |
100.0 °C | 150 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 150 MPa | min. | |
200.0 °C | 130 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 130 MPa | min. | |
300.0 °C | 120 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 120 MPa | min. | |
400.0 °C | 110 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 110 MPa | min. | |
500.0 °C | 105 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 105 MPa | min. | |
600.0 °C | 95 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 95 MPa | min. | |
700.0 °C | 90 MPa Show Supplier Material materials with Límite elástico Rp 0,2 of 90 MPa | min. | |
Límite elástico Rp0.1 | 20.0 °C | 210 MPa Show Supplier Material materials with Límite elástico Rp0.1 of 210 MPa | min. |
100.0 °C | 175 MPa Show Supplier Material materials with Límite elástico Rp0.1 of 175 MPa | min. | |
200.0 °C | 155 MPa Show Supplier Material materials with Límite elástico Rp0.1 of 155 MPa | min. | |
300.0 °C | 145 MPa Show Supplier Material materials with Límite elástico Rp0.1 of 145 MPa | min. | |
400.0 °C | 135 MPa Show Supplier Material materials with Límite elástico Rp0.1 of 135 MPa | min. | |
500.0 °C | 125 MPa Show Supplier Material materials with Límite elástico Rp0.1 of 125 MPa | min. | |
600.0 °C | 115 MPa Show Supplier Material materials with Límite elástico Rp0.1 of 115 MPa | min. | |
700.0 °C | 110 MPa Show Supplier Material materials with Límite elástico Rp0.1 of 110 MPa | min. | |
Módulo elástico | 20.0 °C | 200 GPa Show Supplier Material materials with Módulo elástico of 200 GPa | |
200.0 °C | 190 GPa Show Supplier Material materials with Módulo elástico of 190 GPa | ||
400.0 °C | 175 GPa Show Supplier Material materials with Módulo elástico of 175 GPa | ||
600.0 °C | 160 GPa Show Supplier Material materials with Módulo elástico of 160 GPa | ||
800.0 °C | 145 GPa Show Supplier Material materials with Módulo elástico of 145 GPa | ||
1000.0 °C | 130 GPa Show Supplier Material materials with Módulo elástico of 130 GPa | ||
Resistencia a la tracción | 20.0 °C | 500 - 700 MPa Show Supplier Material materials with Resistencia a la tracción of 500 - 700 MPa | |
100.0 °C | 415 MPa Show Supplier Material materials with Resistencia a la tracción of 415 MPa | ||
200.0 °C | 385 MPa Show Supplier Material materials with Resistencia a la tracción of 385 MPa | ||
300.0 °C | 375 MPa Show Supplier Material materials with Resistencia a la tracción of 375 MPa | ||
400.0 °C | 370 MPa Show Supplier Material materials with Resistencia a la tracción of 370 MPa | ||
500.0 °C | 360 MPa Show Supplier Material materials with Resistencia a la tracción of 360 MPa | ||
600.0 °C | 345 MPa Show Supplier Material materials with Resistencia a la tracción of 345 MPa | ||
700.0 °C | 295 MPa Show Supplier Material materials with Resistencia a la tracción of 295 MPa | ||
Aplicaciones térmicas
Property | Temperature | Value | Comment |
---|---|---|---|
Calor específico | 20.0 °C | 470 J/(kg·K) Show Supplier Material materials with Calor específico of 470 J/(kg·K) | |
100.0 °C | 495 J/(kg·K) Show Supplier Material materials with Calor específico of 495 J/(kg·K) | ||
200.0 °C | 520 J/(kg·K) Show Supplier Material materials with Calor específico of 520 J/(kg·K) | ||
300.0 °C | 545 J/(kg·K) Show Supplier Material materials with Calor específico of 545 J/(kg·K) | ||
400.0 °C | 570 J/(kg·K) Show Supplier Material materials with Calor específico of 570 J/(kg·K) | ||
500.0 °C | 585 J/(kg·K) Show Supplier Material materials with Calor específico of 585 J/(kg·K) | ||
600.0 °C | 605 J/(kg·K) Show Supplier Material materials with Calor específico of 605 J/(kg·K) | ||
700.0 °C | 615 J/(kg·K) Show Supplier Material materials with Calor específico of 615 J/(kg·K) | ||
800.0 °C | 630 J/(kg·K) Show Supplier Material materials with Calor específico of 630 J/(kg·K) | ||
900.0 °C | 640 J/(kg·K) Show Supplier Material materials with Calor específico of 640 J/(kg·K) | ||
1000.0 °C | 655 J/(kg·K) Show Supplier Material materials with Calor específico of 655 J/(kg·K) | ||
1100.0 °C | 665 J/(kg·K) Show Supplier Material materials with Calor específico of 665 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 | for 30°C to the mentioned temperature |
200.0 °C | 1.6E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.6E-5 1/K | for 30°C to the mentioned temperature | |
300.0 °C | 1.65E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.65E-5 1/K | for 30°C to the mentioned temperature | |
400.0 °C | 1.65E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.65E-5 1/K | for 30°C to the mentioned temperature | |
500.0 °C | 1.7E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.7E-5 1/K | for 30°C to the mentioned temperature | |
600.0 °C | 1.7E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.7E-5 1/K | for 30°C to the mentioned temperature | |
700.0 °C | 1.75E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.75E-5 1/K | for 30°C to the mentioned temperature | |
800.0 °C | 1.8E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.8E-5 1/K | for 30°C to the mentioned temperature | |
900.0 °C | 1.8E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.8E-5 1/K | for 30°C to the mentioned temperature | |
1000.0 °C | 1.85E-5 1/K Show Supplier Material materials with Coeficiente de dilatación térmica of 1.85E-5 1/K | for 30°C to the mentioned temperature | |
Conductividad térmica | 20.0 °C | 12 W/(m·K) Show Supplier Material materials with Conductividad térmica of 12 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 | 16 W/(m·K) Show Supplier Material materials with Conductividad térmica of 16 W/(m·K) | ||
300.0 °C | 17 W/(m·K) Show Supplier Material materials with Conductividad térmica of 17 W/(m·K) | ||
400.0 °C | 19 W/(m·K) Show Supplier Material materials with Conductividad térmica of 19 W/(m·K) | ||
500.0 °C | 21 W/(m·K) Show Supplier Material materials with Conductividad térmica of 21 W/(m·K) | ||
600.0 °C | 22 W/(m·K) Show Supplier Material materials with Conductividad térmica of 22 W/(m·K) | ||
700.0 °C | 24 W/(m·K) Show Supplier Material materials with Conductividad térmica of 24 W/(m·K) | ||
800.0 °C | 25 W/(m·K) Show Supplier Material materials with Conductividad térmica of 25 W/(m·K) | ||
900.0 °C | 26 W/(m·K) Show Supplier Material materials with Conductividad térmica of 26 W/(m·K) | ||
1000.0 °C | 28 W/(m·K) Show Supplier Material materials with Conductividad térmica of 28 W/(m·K) | ||
1100.0 °C | 29 W/(m·K) Show Supplier Material materials with Conductividad térmica of 29 W/(m·K) | ||
Eléctrico
Property | Temperature | Value |
---|---|---|
Resistividad eléctrica | 20.0 °C | 9.9E-7 Ω·m Show Supplier Material materials with Resistividad eléctrica of 9.9E-7 Ω·m |
100.0 °C | 1.01E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.01E-6 Ω·m | |
200.0 °C | 1.03E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.03E-6 Ω·m | |
300.0 °C | 1.05E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.05E-6 Ω·m | |
400.0 °C | 1.08E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.08E-6 Ω·m | |
500.0 °C | 1.12E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.12E-6 Ω·m | |
600.0 °C | 1.18E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.18E-6 Ω·m | |
700.0 °C | 1.21E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.21E-6 Ω·m | |
800.0 °C | 1.22E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.22E-6 Ω·m | |
900.0 °C | 1.23E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.23E-6 Ω·m | |
1000.0 °C | 1.24E-6 Ω·m Show Supplier Material materials with Resistividad eléctrica of 1.24E-6 Ω·m | |
Chemical properties
Property | Value | Comment | |
---|---|---|---|
Aluminio | 0.5 % Show Supplier Material materials with Aluminio of 0.5 % | ||
Azufre | 0.01 % Show Supplier Material materials with Azufre of 0.01 % | max. | |
Carbono | 0.07 % Show Supplier Material materials with Carbono of 0.07 % | ||
Cobalto | 0.02 % Show Supplier Material materials with Cobalto of 0.02 % | By agreement | |
Cromo | 20.5 % Show Supplier Material materials with Cromo of 20.5 % | ||
Fósforo | 0.02 % Show Supplier Material materials with Fósforo of 0.02 % | max. | |
Hierro | Balance | ||
Manganeso | 0.6 % Show Supplier Material materials with Manganeso of 0.6 % | ||
Níquel | 30.5 % Show Supplier Material materials with Níquel of 30.5 % | ||
Silicona | 0.6 % Show Supplier Material materials with Silicona of 0.6 % | ||
Titanio | 0.5 % Show Supplier Material materials with Titanio of 0.5 % |
Technological properties
Property | ||
---|---|---|
Application areas | Sanicro® 31HT has high strength and structural stability at high temperature and very good ductility. The most common applications for this grade are: | |
Certifications | Approvals: | |
Cold Forming | Annealing after cold bending is not normally necessary, but this should be reviewed depending on the degree of bending and the operating conditions. Figure 5 shows the connection between the degree of deformation, service temperature and creep rupture strength at 100 000 h for Sanicro® 31HT. The curves are based on data from creep tests at 700, 800 and 900°C (1290, 1470 and 1650°F respectively). For degrees of deformation and service temperatures exceeding the curve for 100% creep strength, we recommend solution annealing after cold working in order to achieve the highest possible creep strength. Further information can be supplied on request. | |
Corrosion properties | Air: Sanicro® 31HT is highly resistant to oxidation, both at constant and at cyclically varying temperatures. See Fig. 2. The service temperature in air should not exceed about 1100°C (2010°F). Isothermal oxidation: at 1100°C (2010°F) for 100h results in a corrosion rate of about 0.8 mm/year (32 mpy) and exposure at the same temperature for 1000 h causes about 0.2 mm/year (8 mpy). This corresponds to an oxide layer of about 0.1 mm (0.004 in.) thickness after the first year, in accordance with the law of parabolic growth. Cyclic oxidation: at 1100°C (2010°F) for 5 x 24 h, with cooling to room temperature every 24 hours gives a corrosion rate of less than 1.9 mm/year (75 mpy). The corresponding corrosion rate at 1150°C (2100°F) is less than 2.3 mm/year (92 mpy). The oxidation process is accelerated by temperature fluctuations and also by plastic deformation, e.g. creep. Carburizing atmosphere: Carburization can occur when a material comes into contact with hot gases with high carbon activity, e.g. hydrocarbons. The degree of carburization depends on the composition of the material and on the carbon and oxygen contents. Consequently, a protective oxide is easily formed on the surface of the material, and this grade has, therefore, good resistance to carburization in carbon monoxide and carbon dioxide. See Fig. 3. The material carburizes in gases with low oxygen content, but the depth of penetration is limited by the high content of chromium and nickel. Fig. 4 shows carburization in a mixture of 10% methane and 90 % argon. The figure also indicates to the influence of surface finish on carburization resistance. In alternately oxidizing and carburizing atmospheres, alloys of high nickel content are sometimes attacked by what is known as "green rot". Sanicro® 31HT has good resistance to this type of attack. Other gaseous atmospheres: In addition to its very good resistance to oxidation and carburization, Sanicro® 31HT also has good resistance to combustion gases and other aggressive gaseous mixtures. Its maximum service temperature in a sulphurous atmosphere, however, is lower than in air, and is mainly determined by the oxygen and sulphur contents of the gas. This grade can also be used in synthesis gas (ammonia synthesis) at high process temperatures since the material has a resistance to nitrogen absorption, which is far superior to that of the ordinary 18/8 grades, and in gases containing chlorides (e.g. EDC) up to 650 °C (1200°F) if the Ti+Al content is restricted to 0.7 % (see "Structural stability"). Salt melts: Sanicro® 31HT has good resistance to cyanide melts and neutral salt melts at high temperatures. Wet corrosion: Sanicro® 31 HT has roughly the same resistance as Alloy 800 to general corrosion and pitting. Thanks to the high nickel content its resistance to stress corrosion is good. Owing to its relatively high carbon content and the heat treatment applied, Sanicro® 31HT can be prone to intergranular corrosion. This problem can be disregarded where high temperature operation is concerned, but should be observed in cases when the alloy is exposed to corrosive condensates or pickling solutions. | |
Heat Treatment | Tubes are delivered in the heat treated condition. If another heat treatment is needed after further processing the following is recommended: Solution annealing: 1150-1200°C (2100-2190°F), 10-30 minutes, rapid cooling in air or water. | |
Hot forming | Hot bending is carried out at 1100-850°C (2010-1560°F) and should be followed by solution annealing. | |
Other | Forms of supply: Seamless tube and pipe in Sanicro® 31HT is supplied in dimensions up to 260 mm outside diameter in the solution annealed and white-pickled condition. Pigtail tubes, which are solution annealed after bending are supplied unpickled. Stock sizes: Sanicro® 31HT is stocked in sizes from 3/8" to 2" outside diameter. Additional data concerning sizes and finishes is available on request from your nearest Sandvik office. Other forms of supply: Billets | |
Structural Stability | Thanks to its high nickel content, Sanicro® 31HT shows very little tendency to precipitate embrittling phases. Within the 600-700°C (1110-1290°F) temperature range, an intermetallic phase, gamma prime, Ni3 (Al, Ti), is precipitated, which reduces the ductility of the alloy. To avoid this precipitation some specifications prescribe maximization of the (Ti + Al) content. Sandvik supplies a modified version of Sanicro® 31HT in which chemical composition and heat treatment have been adapted to meet this requirement and give the highest possible creep ductility. | |
Welding | The weldability of Sanicro® 31HT is good. Suitable methods of fusion welding are manual metal-arc welding (MMA/SMAW) and gas-shielded arc welding, with the TIG/GTAW method as first choice. In common with all fully austenitic stainless steels, Sanicro® 31HT has low thermal conductivity and high thermal expansion. Welding plans should therefore be carefully selected in advance, so that distortions of the welded joint are minimized. If residual stresses are a concern, solution annealing can be performed after welding. For Sanicro® 31HT, heat-input of <1.0 kJ/mm and interpass temperature of <100°C (210°F) are recommended. A string bead welding technique should be used. Recommended filler metals for temperature <800°C
Recommended filler metals for temperature ≥800°C:
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