ASME B16.5 A182 F91 Flange
The ASME B16.5 A182 F91 Flange is a high-temperature, high-pressure flange compliant with the ASME B16.5 standard, manufactured from ASTM A182 F91 chromium-molybdenum alloy steel (9Cr-1Mo-V-Nb), specifically designed for ultra-high temperature applications in supercritical power plants and demanding industrial systems.
High Quality ASME B16.5 ASME B16.5 A182 F91 Flange
- Pressure Ratings Class 150/300/600/900/1500/2500
- Size Range NPS ½” to 24″ (ASME B16.5 standard)
ASME B16.5 ASME B16.5 A182 F91 Flange
The ASME B16.5 standard covers various flange designs, including:
- Weld Neck Flange: Preferred for high-pressure systems, connected via welding.
- Slip-On Flange: Easy installation, suitable for low-pressure applications.
- Blind Flange: Used to seal pipe ends.
- Threaded Flange: Connected via threads, eliminating the need for welding.
- Lap Joint Flange: Paired with stub ends for easy disassembly.
Material Properties (ASTM A182 F91)
| Parameter | Value/Range |
| Chemical Composition | Cr: 8-9.5%, Mo: 0.85-1.05%, V: 0.18-0.25%, Nb: 0.06-0.10%, C≤0.15% |
| Tensile Strength | ≥585 MPa |
| Yield Strength | ≥415 MPa |
| Hardness (HB) | ≤250 |
| Pitting Resistance Equivalent (PREN) | ≥18 (corrosion resistance indicator) |
| Heat Treatment | Normalizing (1040–1080°C) + Tempering (730–800°C) |
Selection Recommendations
Preferred applications:
- Supercritical power plant main steam pipelines (>22 MPa, >600°C).
- High-temperature cracking furnace pipelines (sulfur/chloride-free).
Alternative solutions:
- For budget constraints and temperatures ≤600°C: Use F22.
- For extreme corrosion environments: Use nickel-based alloys.
Usage Guidelines
Welding Requirements:
- Filler material: Must use E9015-B9/E9018-B9 electrodes or ER90S-B9 filler wire.
- Preheating temperature: 200–300°C, interpass temperature control ≤300°C.
- Post-weld heat treatment (PWHT): Mandatory tempering at 760–790°C to avoid brittle phase formation.
Corrosion Protection:
- Suitable environments: High-temperature steam, non-reducing gases.
- Unsuitable environments: Sulfur-, chloride-, or strongly acidic media (switch to duplex steel or nickel-based alloys).
Inspection Standards:
- Chemical composition analysis (ensure V/Nb content meets standards).
- Impact testing (Charpy impact value ≥41J at -20°C).
- Metallographic examination (no δ-ferrite or harmful precipitates).
Typical Applications
Supercritical/ultra-supercritical power plants: Main steam pipelines, reheater connections.
Petrochemical industry: High-temperature cracking furnaces, hydroprocessing reactor pipelines.
Nuclear equipment: High-temperature cooling systems, steam generators.
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More Information about ASME B16.5 A182 F91 Flange
ASME B16.5: A pipe flange standard established by the American Society of Mechanical Engineers (ASME), specifying dimensions, pressure ratings (Class 150-2500), tolerances, and manufacturing requirements.
ASTM A182 F91: A 9% chromium-1% molybdenum-vanadium-niobium alloy steel (9Cr-1Mo-V-Nb), specifically designed for ultra-high temperature creep and oxidation resistance, widely used in supercritical power plants and high-temperature, high-pressure industrial systems.
Advantages and Disadvantages Analysis
| Advantages | Disadvantages |
| ✅ Ultra-high temperature creep resistance (stable above 625°C) | ❌ Extremely high cost (2-3× F22) |
| ✅ Lightweight design (~30% lighter than nickel alloys) | ❌ Complex welding process (requires specialized materials and strict heat treatment) |
| ✅ Long service life (slow degradation at high temps) | ❌ Poor resistance to sulfur/chloride corrosion |
Pressure–Temperature Ratings for A182 Gr. F91
Comparison with Other High-Temperature Flanges
| Property | F91 (9Cr-1Mo-V-Nb) | F9 (9Cr-1Mo) | F22 (2.25Cr-1Mo) |
| Maximum Temperature | 625°C | 650°C | 600°C |
| Creep Resistance | Excellent (V/Nb strengthened) | Good | Moderate |
| Welding Difficulty | High (specialized filler required) | Moderate | Moderate |
| Cost | High | Moderate | Moderate |
FAQ
- F92 (9Cr-0.5Mo-2W-V-Nb): Contains tungsten (W), increases creep resistance temperature to 650°C, but higher cost and more complex welding.
Limited suitability: Requires hydrogen partial pressure control; high risk of hydrogen embrittlement at elevated temperatures. Consider F22 (2.25Cr-1Mo) instead.
- Higher temperatures (>650°C): Nickel-based alloys (e.g., Inconel 617/625).
- Corrosive media: Duplex steel (F51/F53) or super stainless steel (6Mo type).
- Cutting: Requires carbide tools and low-speed machining.
- Cold bending: Must preheat above 200°C to prevent cracking.
For detailed dimension tables, supplier quotations, or technical documentation, please provide:
- Operating parameters: Media type, temperature/pressure profile, connected piping material.
- Certification requirements: ASME/EN/PED certification, third-party inspection reports.
📞 Technical Support: Material selection consultation and fast quotations available!
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