Allgemein
Mechanisch
Property | Temperature | Value | Comment |
---|---|---|---|
Dehnung | 23.0 °C | 35 % Show Supplier Material materials with Dehnung of 35 % | min. |
Elastizitätsmodul | 20.0 °C | 200 GPa Show Supplier Material materials with Elastizitätsmodul of 200 GPa | |
100.0 °C | 194 GPa Show Supplier Material materials with Elastizitätsmodul of 194 GPa | ||
200.0 °C | 186 GPa Show Supplier Material materials with Elastizitätsmodul of 186 GPa | ||
300.0 °C | 179 GPa Show Supplier Material materials with Elastizitätsmodul of 179 GPa | ||
400.0 °C | 172 GPa Show Supplier Material materials with Elastizitätsmodul of 172 GPa | ||
500.0 °C | 165 GPa Show Supplier Material materials with Elastizitätsmodul of 165 GPa | ||
Härte, Vickers | 23.0 °C | 155 [-] Show Supplier Material materials with Härte, Vickers of 155 [-] | |
Kerbschlagenergie | -270.0 °C | 60 J Show Supplier Material materials with Kerbschlagenergie of 60 J | EN 13445-2 (UFPV-2) and EN 10216-5 |
-196.0 °C | 60 J Show Supplier Material materials with Kerbschlagenergie of 60 J | EN 13445-2 (UFPV-2) and EN 10216-5 | |
Streckgrenze Rp 0,2 | 20.0 °C | 220 MPa Show Supplier Material materials with Streckgrenze Rp 0,2 of 220 MPa | min. |
50.0 °C | 196 MPa Show Supplier Material materials with Streckgrenze Rp 0,2 of 196 MPa | min. | |
100.0 °C | 172 MPa Show Supplier Material materials with Streckgrenze Rp 0,2 of 172 MPa | min. | |
150.0 °C | 155 MPa Show Supplier Material materials with Streckgrenze Rp 0,2 of 155 MPa | min. | |
200.0 °C | 144 MPa Show Supplier Material materials with Streckgrenze Rp 0,2 of 144 MPa | min. | |
250.0 °C | 136 MPa Show Supplier Material materials with Streckgrenze Rp 0,2 of 136 MPa | min. | |
300.0 °C | 129 MPa Show Supplier Material materials with Streckgrenze Rp 0,2 of 129 MPa | min. | |
350.0 °C | 123 MPa Show Supplier Material materials with Streckgrenze Rp 0,2 of 123 MPa | min. | |
400.0 °C | 119 MPa Show Supplier Material materials with Streckgrenze Rp 0,2 of 119 MPa | min. | |
450.0 °C | 115 MPa Show Supplier Material materials with Streckgrenze Rp 0,2 of 115 MPa | min. | |
500.0 °C | 110 MPa Show Supplier Material materials with Streckgrenze Rp 0,2 of 110 MPa | min. | |
Streckgrenze Rp0,1 | 20.0 °C | 250 MPa Show Supplier Material materials with Streckgrenze Rp0,1 of 250 MPa | min. |
50.0 °C | 221 MPa Show Supplier Material materials with Streckgrenze Rp0,1 of 221 MPa | min. | |
100.0 °C | 197 MPa Show Supplier Material materials with Streckgrenze Rp0,1 of 197 MPa | min. | |
150.0 °C | 180 MPa Show Supplier Material materials with Streckgrenze Rp0,1 of 180 MPa | min. | |
200.0 °C | 169 MPa Show Supplier Material materials with Streckgrenze Rp0,1 of 169 MPa | min. | |
250.0 °C | 161 MPa Show Supplier Material materials with Streckgrenze Rp0,1 of 161 MPa | min. | |
300.0 °C | 154 MPa Show Supplier Material materials with Streckgrenze Rp0,1 of 154 MPa | min. | |
350.0 °C | 148 MPa Show Supplier Material materials with Streckgrenze Rp0,1 of 148 MPa | min. | |
400.0 °C | 144 MPa Show Supplier Material materials with Streckgrenze Rp0,1 of 144 MPa | min. | |
450.0 °C | 140 MPa Show Supplier Material materials with Streckgrenze Rp0,1 of 140 MPa | min. | |
500.0 °C | 135 MPa Show Supplier Material materials with Streckgrenze Rp0,1 of 135 MPa | min. | |
Zugfestigkeit | 23.0 °C | 515 - 690 MPa Show Supplier Material materials with Zugfestigkeit of 515 - 690 MPa |
Thermisch
Property | Temperature | Value | Comment |
---|---|---|---|
Koeffizient der thermischen Ausdehnung | 100.0 °C | 1.65E-5 1/K Show Supplier Material materials with Koeffizient der thermischen Ausdehnung of 1.65E-5 1/K | for 30°C to the mentioned temperature |
200.0 °C | 1.7E-5 1/K Show Supplier Material materials with Koeffizient der thermischen Ausdehnung of 1.7E-5 1/K | for 30°C to the mentioned temperature | |
300.0 °C | 1.75E-5 1/K Show Supplier Material materials with Koeffizient der thermischen Ausdehnung of 1.75E-5 1/K | for 30°C to the mentioned temperature | |
400.0 °C | 1.8E-5 1/K Show Supplier Material materials with Koeffizient der thermischen Ausdehnung of 1.8E-5 1/K | for 30°C to the mentioned temperature | |
500.0 °C | 1.8E-5 1/K Show Supplier Material materials with Koeffizient der thermischen Ausdehnung of 1.8E-5 1/K | for 30°C to the mentioned temperature | |
600.0 °C | 1.8E-5 1/K Show Supplier Material materials with Koeffizient der thermischen Ausdehnung of 1.8E-5 1/K | for 30°C to the mentioned temperature | |
700.0 °C | 1.85E-5 1/K Show Supplier Material materials with Koeffizient der thermischen Ausdehnung of 1.85E-5 1/K | for 30°C to the mentioned temperature | |
Spezifische Wärmekapazität | 20.0 °C | 485 J/(kg·K) Show Supplier Material materials with Spezifische Wärmekapazität of 485 J/(kg·K) | |
100.0 °C | 500 J/(kg·K) Show Supplier Material materials with Spezifische Wärmekapazität of 500 J/(kg·K) | ||
200.0 °C | 515 J/(kg·K) Show Supplier Material materials with Spezifische Wärmekapazität of 515 J/(kg·K) | ||
300.0 °C | 525 J/(kg·K) Show Supplier Material materials with Spezifische Wärmekapazität of 525 J/(kg·K) | ||
400.0 °C | 540 J/(kg·K) Show Supplier Material materials with Spezifische Wärmekapazität of 540 J/(kg·K) | ||
500.0 °C | 555 J/(kg·K) Show Supplier Material materials with Spezifische Wärmekapazität of 555 J/(kg·K) | ||
600.0 °C | 575 J/(kg·K) Show Supplier Material materials with Spezifische Wärmekapazität of 575 J/(kg·K) | ||
Wärmeleitfähigkeit | 20.0 °C | 14 W/(m·K) Show Supplier Material materials with Wärmeleitfähigkeit of 14 W/(m·K) | |
100.0 °C | 15 W/(m·K) Show Supplier Material materials with Wärmeleitfähigkeit of 15 W/(m·K) | ||
200.0 °C | 17 W/(m·K) Show Supplier Material materials with Wärmeleitfähigkeit of 17 W/(m·K) | ||
300.0 °C | 18 W/(m·K) Show Supplier Material materials with Wärmeleitfähigkeit of 18 W/(m·K) | ||
400.0 °C | 20 W/(m·K) Show Supplier Material materials with Wärmeleitfähigkeit of 20 W/(m·K) | ||
500.0 °C | 21 W/(m·K) Show Supplier Material materials with Wärmeleitfähigkeit of 21 W/(m·K) | ||
600.0 °C | 23 W/(m·K) Show Supplier Material materials with Wärmeleitfähigkeit of 23 W/(m·K) | ||
Chemical properties
Property | Value | Comment | |
---|---|---|---|
Chrom | 18.5 % Show Supplier Material materials with Chrom of 18.5 % | ||
Eisen | Balance | ||
Kohlenstoff | 0.03 % Show Supplier Material materials with Kohlenstoff of 0.03 % | max. | |
Mangan | 1.7 % Show Supplier Material materials with Mangan of 1.7 % | ||
Molybdän | 3.1 % Show Supplier Material materials with Molybdän of 3.1 % | ||
Nickel | 14.5 % Show Supplier Material materials with Nickel of 14.5 % | ||
Phosphor | 0.03 % Show Supplier Material materials with Phosphor of 0.03 % | max. | |
Schwefel | 0.015 % Show Supplier Material materials with Schwefel of 0.015 % | max. | |
Silizium | 0.4 % Show Supplier Material materials with Silizium of 0.4 % |
Technological properties
Property | ||
---|---|---|
Application areas | Sandvik 3R64 can be used for a wide range of industrial applications where steels of type ASTM 304 and 304L or even ASTM 316L have insufficient corrosion resistance. Typical examples are heat exchangers, condensers, pipelines, cooling and heating coils in the chemical, petrochemical, pulp and paper and food industries. | |
Corrosion properties | Owing to its high molybdenum content Sandvik 3R64 possesses improved resistance compared to ASTM 316/316L in a majority of chloride and acidic environments. General corrosion, Sandvik 3R64 has good resistance in: The following data illustrate the improved resistance of Sandvik 3R64 vs ASTM 316, although the corrosion rates at the majority of temperatures are unacceptably high for both grades. Table 1. General corrosion resistance of Sandvik 3R64 and ASTM 316 in boiling formic acid. Intergranular corrosion: Owing to its low carbon content Sandvik 3R64 possesses a low risk for intergranular corrosion after e.g. welding operations. Pitting and crevice corrosion: The pitting corrosion resistance of stainless steels is primarily determined by the contents chromium, molybdenum and nitrogen. The Pitting Resistance Equivalent can be used for ranking different stainless steels with regard to their pitting resistance. The PRE number is defined as: PRE = % Cr + 3.3 x % Mo + 16 x % N Table 2. PRE values for Sandvik 3R64 and some other alloys. Typical values unless otherwise stated Thus Sandvik 3R64 is resistant against pitting corrosion at higher temperatures and/or higher chloride concentrations than is the case for ASTM 316L. The same ranking of alloys can be applied for the crevice corrosion resistance. However, crevice corrosion is to be expected at significantly lower temperatures, than is the case for pitting corrosion. Figure 1 demonstrates the better crevice corrosion resistance of Sandvik 3R64 vs. 3R60 (ASTM 316L with 2.6% Mo, EN 1.4435) after 2 months exposure in chloride solutions. Stress corrosion cracking: Austenitic steels are susceptible to stress corrosion cracking. This may occur at temperatures above about 60°C (140°F) if the steel is subjected to tensile stresses and at the same time comes into contact with certain solutions, particularly those containing chlorides. Such service conditions should therefore be avoided. Conditions when plants are shut down must also be considered, as the condensates which are then formed can develop a chloride content that leads to both stress corrosion cracking and pitting. In applications demanding high resistance to stress corrosion cracking, austenitic-ferritic steels, such as Sandvik SAF 2304 or Sandvik SAF 2205 are recommended. See data sheets S-1871-ENG or S-1874-ENG. | |
Heat Treatment | The tubes are delivered in heat treated condition. If additional heat treatment is needed after further processing the following is recommended. Stress relieving: 850–950°C (1560–1740°F), 10-15 min, cooling in air. Solution annealing: 1000–1100°C (1830–2010°F), 10-30 min, cooling in air or water. | |
Other | Forms of supply: Seamless tube and pipe in 3R64 is supplied in dimensions up to 260 mm outside diameter in the solution annealed and white-pickled condition or solution annealed in a bright-annealing process. Sandvik 3R64 is also supplied in forms of: Further details concerning sizes and finishes are available on request. | |
Welding | The weldability of Sandvik 3R64 is good. Welding must be carried out without preheating and subsequent heat treatment is normally not required. 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. For Sandvik 3R64, heat input of <1.5 kJ/mm and interpass temperature of <100°C (210°F) are recommended. Recommended filler metals:
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