Duplex Steel F51 (UNS S31803): Product Introduction
Duplex stainless steel F51 (UNS S31803) is a versatile and highly corrosion-resistant alloy known for its excellent combination of mechanical properties and resistance to various corrosive environments. This article provides a comprehensive introduction to Duplex Steel F51 (UNS S31803), covering its chemical composition, mechanical properties, performance at different temperatures, industry applications, shapes and sizes, production standards, welding and processing capabilities, advantages and disadvantages, and a comparison with similar alloys.
Chemische Zusammensetzung
Duplex Steel F51 (UNS S31803) has a balanced chemical composition that contributes to its corrosion resistance and mechanical strength:
| Element | Komposition (%) |
|---|---|
| Chrom (Cr) | 21.0 – 23.0 |
| Nickel (Ni) | 4,5 – 6,5 |
| Molybdän (Mo) | 2,5 – 3,5 |
| Stickstoff (N) | 0.08 – 0.20 |
| Kohlenstoff (C) | 0.030 max |
| Silizium (Si) | 1,00 max |
| Mangan (Mn) | 2.00 max |
| Phosphor (P) | 0.030 max |
| Schwefel (S) | 0.020 max |
Mechanische Eigenschaften
Duplex Steel F51 (UNS S31803) exhibits excellent mechanical properties suitable for a wide range of applications:
| Eigentum | Wert |
|---|---|
| Zugfestigkeit, ksi (MPa) | 65 Minuten (450 Minuten) |
| Streckgrenze (0,2 % Offset), ksi (MPa) | 45 min (310 min) |
| Dehnung (% in 2 Zoll) | 25 Min |
| Härte, Rockwell C (HRC) | 30 max |
Leistungsmerkmale
Duplex Steel F51 (UNS S31803) offers superior performance across diverse conditions:
- Korrosionsbeständigkeit: Excellent resistance to stress corrosion cracking (SCC), pitting, and crevice corrosion in chloride-rich environments, making it suitable for marine and offshore applications.
- Stärke: Higher strength compared to austenitic stainless steels, combined with good toughness, ensuring structural integrity in demanding environments.
- Schweißbarkeit: Good weldability with suitable filler materials and techniques, facilitating ease of fabrication and repair.
Branchenanwendungen
Duplex Steel F51 (UNS S31803) finds extensive use in industries requiring robust corrosion resistance and mechanical strength:
| Industriesektor | Anwendungen |
|---|---|
| Öl und Gas | Subsea pipelines, offshore platforms, and components exposed to aggressive environments. |
| Chemische Verarbeitung | Heat exchangers, storage tanks, and reactor vessels handling corrosive chemicals. |
| Marine | Propeller shafts, seawater desalination plants, and marine exhaust systems. |
Formen und Größen
Duplex Steel F51 (UNS S31803) is available in various forms and sizes to meet specific application needs:
- Formen: Bleche, Platten, Stangen, Rohre, Rohre und Formstücke.
- Größen: Die Dicke reicht von 0,5 mm bis 50 mm für Platten und der Durchmesser von 6 mm bis 300 mm für Rundstäbe.
Produktionsstandards
Duplex Steel F51 (UNS S31803) conforms to international production standards ensuring quality and reliability:
| Produkt Form | Verfügbare Formen | Verfügbare Größen | Produktionsstandards |
|---|---|---|---|
| Platten/Blätter | Blätter, Platten | Dicke: 0,5 mm – 50 mm | ASTM A240, EN 10088 |
| Stangen/Stangen | Rundstäbe, Vierkantstäbe | Durchmesser: 6 mm – 300 mm | ASTM A276, EN 10088 |
| Rohre/Röhren | Nahtlos, geschweißt | Außendurchmesser: 6 mm – 300 mm | ASTM A790, ASTM A789 |
Schweißen und Bearbeiten
Duplex Steel F51 (UNS S31803) offers good weldability and processing characteristics:
- Schweißen: Kann mit Standardmethoden wie WIG-, MIG- und Unterpulverschweißen geschweißt werden, mit geeigneter Vorwärmung und Wärmebehandlung nach dem Schweißen, um die Korrosionsbeständigkeit aufrechtzuerhalten.
- Bearbeitbarkeit: Im Allgemeinen niedriger als bei austenitischen Edelstählen, daher sind für Bearbeitungsvorgänge geringere Geschwindigkeiten und mehr Leistung erforderlich.
Vorteile und Nachteile
| Aspekt | Einzelheiten |
|---|---|
| Vorteile | Excellent corrosion resistance, high strength, cost-effectiveness compared to super austenitic and nickel-based alloys, suitable for a wide range of applications in aggressive environments. |
| Nachteile | Lower toughness compared to austenitic stainless steels, may require specialized handling during welding and fabrication due to duplex structure. |
Vergleich mit ähnlichen Legierungen
Duplex Steel F51 (UNS S31803) is often compared with other duplex stainless steels such as F60 (UNS S32205) and super austenitic stainless steels like 904L (UNS N08904). Here’s a brief comparison:
| Legierungstyp/-eigenschaft | Duplexstahl F51 (UNS S31803) | Duplexstahl F60 (UNS S32205) | Super Austenitic Stainless Steel (904L, UNS N08904) |
|---|---|---|---|
| Korrosionsbeständigkeit | Hervorragende Beständigkeit gegen chloridinduzierte Korrosion, einschließlich Lochfraß und Spaltkorrosion. | Enhanced resistance to localized corrosion due to higher chromium and molybdenum content. | Good corrosion resistance, lower than duplex stainless steels in chloride environments. |
| Stärke | Higher strength compared to austenitic stainless steels, good toughness. | Similar strength characteristics with improved corrosion resistance. | Lower strength compared to duplex stainless steels, good formability. |
| Anwendungen | Öl und Gas, chemische Verarbeitung, Meeresumwelt. | Similar applications with enhanced corrosion resistance in aggressive chloride environments. | Chemical and pharmaceutical industries, paper production. |
This detailed article introduces Duplex Steel F51 (UNS S31803), highlighting its chemical composition, mechanical properties, performance characteristics, industry applications, available forms and sizes, production standards, welding and processing capabilities, as well as advantages, disadvantages, and a comparison with similar alloys. Engineers and professionals seeking durable materials for applications requiring corrosion resistance and high strength will find this information valuable for selecting the appropriate alloy to meet specific operational needs.