ASME B16.5 SO Flange Gr1 Gr2 Gr5 Titanium Slip On Flange Class 300 SORF Raised Face for Water Supply Management

ASME B16.5 SO Flange Gr1 Gr2 Gr5 Titanium Slip On Flange Class 300 SORF Raised Face for Water Supply Management

Product Introduction of ASME B16.5 Titanium Slip On Flange

Titanium slip-on flanges, conforming to ASME B16.5 standards and made from Grade 2 titanium alloy, play a crucial role in the oil and gas industry. These flanges with raised faces are designed to ensure secure and leak-free connections in pipelines and equipment subjected to high pressures and corrosive environments. This paper examines the specifications, characteristics, and applications of ASME B16.5 Grade 2 Class 150 titanium slip-on flanges with raised face, highlighting their significance in enhancing operational efficiency and reliability within the oil and gas sector.

The oil and gas industry relies heavily on robust and durable components to maintain the integrity of pipeline systems and equipment. Titanium slip-on flanges are preferred for their exceptional corrosion resistance and mechanical properties, making them suitable for demanding applications in offshore platforms, refineries, and chemical processing plants. This paper explores the structural composition, dimensional standards, and performance attributes of ASME B16.5 Grade 2 Class 150 titanium slip-on flanges with raised face, detailing their role in addressing challenges related to fluid transport, high temperatures, and aggressive media encountered in oil and gas operations.

Titanium slip-on flanges, conforming to ASME B16.5 standards and made from Grade 2 titanium alloy, play a crucial role in the oil and gas industry. These flanges with raised faces are designed to ensure secure and leak-free connections in pipelines and equipment subjected to high pressures and corrosive environments. This paper examines the specifications, characteristics, and applications of ASME B16.5 Grade 2 Class 150 titanium slip-on flanges with raised face, highlighting their significance in enhancing operational efficiency and reliability within the oil and gas sector.

The oil and gas industry relies heavily on robust and durable components to maintain the integrity of pipeline systems and equipment. Titanium slip-on flanges are preferred for their exceptional corrosion resistance and mechanical properties, making them suitable for demanding applications in offshore platforms, refineries, and chemical processing plants. This paper explores the structural composition, dimensional standards, and performance attributes of ASME B16.5 Grade 2 Class 150 titanium slip-on flanges with raised face, detailing their role in addressing challenges related to fluid transport, high temperatures, and aggressive media encountered in oil and gas operations.

ASME B16.5 titanium slip-on flanges are typically available in various grades of titanium and titanium alloys. The choice of grade depends on the specific application requirements, including corrosion resistance, mechanical properties, and cost considerations.

1. Commercially Pure Titanium:

   • Grade 2 (UNS R50400): This is the most widely used grade of titanium due to its excellent corrosion resistance, formability, and weldability. It is suitable for a wide range of industrial applications where moderate strength and good corrosion resistance are required.

2. Titanium Alloys:

   • Grade 5 (Ti-6Al-4V, UNS R56400): This is the most commonly used titanium alloy, known for its high strength, lightweight properties, and excellent corrosion resistance. It is used in aerospace, marine, and chemical processing industries.
   • Grade 7 (UNS R52400): Known for its excellent weldability and corrosion resistance in reducing and mildly oxidizing environments, Grade 7 titanium is often used in chemical processing equipment.
   • Grade 12 (UNS R53400): This titanium alloy offers excellent corrosion resistance in highly oxidizing environments and is well-suited for chemical processing and marine applications.
   • Grade 23 (Ti-6Al-4V ELI, UNS R56401): Similar to Grade 5, but with extra low interstitial (ELI) content, Grade 23 titanium alloy is used in medical and aerospace applications where biocompatibility and high strength are required.

Temperature Specifications for ASME B16.5 Titanium Slip On Flange

Specifications for ASME B16.5 Class 300 Titanium Slip On Flange

The ANSI B16.5 Titanium Slip-On Flange is a type of flange designed to meet the ANSI B16.5 standard, which covers flanges and flanged fittings for pipe sizes ranging from 1/2 inch to 24 inches. The Slip-On Flange (SO flange) is a popular flange type where the pipe is slid into the flange and welded on both the inside and outside, providing a strong and leak-tight seal. When made from titanium, these flanges offer numerous advantages, especially in highly corrosive or high-performance applications.

Here are the key features of the ANSI B16.5 Titanium Slip-On Flange:

1. Material Composition

• Titanium Grades: Typically manufactured from Grade 2 (commercially pure titanium) or Grade 5 (Ti-6Al-4V alloy) titanium.
  • Grade 2 Titanium: Offers excellent corrosion resistance and is commonly used in chemical processing, marine, and other demanding environments.
  • Grade 5 Titanium: A titanium alloy with aluminum and vanadium, providing higher strength, making it suitable for aerospace and industrial applications.
• Corrosion Resistance: Titanium is highly resistant to corrosion from a wide range of aggressive substances, such as seawater, acids, alkalis, and chlorides. This is a significant benefit in applications where other materials may fail due to corrosion.

2. Design and Structure

• Slip-On Design: The slip-on flange is designed to be easily installed by sliding the pipe into the flange. The flange is then welded both on the inside and the outside to secure the pipe. This design makes installation relatively simple and cost-effective.
• Bolt Holes and Centering: The ANSI B16.5 specification includes standardized bolt holes and dimensions to ensure compatibility with other components in the piping system. The holes are positioned according to the standard bolt circle diameter (BCD), ensuring a reliable connection.
• Raised Face (RF) or Flat Face (FF): Typically, the slip-on flange comes with a raised face to provide a better sealing surface when paired with a gasket. The raised face helps to achieve a leak-proof seal under pressure.

3. Pressure and Temperature Ratings

• Pressure Rating: The ANSI B16.5 standard specifies pressure ratings for flanges based on their size and material. Titanium slip-on flanges are suitable for various pressure classes, such as 150#, 300#, 600#, and 1500#, depending on the specific design and material grade.
• Temperature Resistance: Titanium is known for its ability to withstand high temperatures. Grade 2 Titanium can handle temperatures up to 400°C (752°F), while Grade 5 Titanium can operate in temperatures up to 500°C (932°F), depending on the application. This makes titanium slip-on flanges ideal for high-temperature systems in power generation, chemical processing, and aerospace.

4. Lightweight and High Strength

• Reduced Weight: Titanium is significantly lighter than many other metals, such as stainless steel or carbon steel. This reduces the overall weight of the piping system, making it easier to handle and transport, especially in large-scale installations or offshore projects.
• High Strength-to-Weight Ratio: Titanium has an excellent strength-to-weight ratio, meaning that even with its lower weight, titanium can still provide exceptional strength and support for pressure systems.

5. Durability and Longevity

• Corrosion Resistance: Titanium’s resistance to corrosion in aggressive environments, including seawater, acids, and chlorides, ensures a long service life in applications such as chemical processing and marine systems.
• Wear Resistance: Titanium’s resistance to erosion, cavitation, and wear makes these flanges particularly useful in abrasive or harsh conditions where other materials might degrade quickly.

6. Easy Installation and Maintenance

• Slip-On Design for Quick Installation: The slip-on flange allows for quick and easy installation, as it simply slides onto the pipe before being welded. This reduces labor time and makes it a cost-effective choice for many applications.
• Minimal Maintenance: Once installed, titanium slip-on flanges are low-maintenance due to the material’s inherent resistance to corrosion and wear. This helps reduce operational downtime and maintenance costs.

7. Compatibility with Gaskets and Bolts

• Standardized Dimensions: As per the ANSI B16.5 standard, the Slip-On Flange has standardized dimensions, including bolt hole pattern and center-to-center distances, ensuring compatibility with other flanges and piping components. This allows easy integration into existing piping systems.
• Leak-Proof Sealing: When paired with a suitable gasket, titanium slip-on flanges can provide a strong, leak-proof seal even under high pressure. The raised face design further enhances sealing performance.

8. Excellent Weldability

• Weldability: Titanium is highly weldable, and ANSI B16.5 Titanium Slip-On Flanges are designed to be welded easily, ensuring a strong connection between the pipe and the flange. The welds are also resistant to corrosion, ensuring long-term reliability.
• Corrosion-Resistant Welds: Titanium’s resistance to corrosion extends to the welded joints, ensuring that the connection remains secure and leak-free over time.

9. Versatility and Applications

• Chemical Processing: Titanium slip-on flanges are ideal for chemical systems where resistance to aggressive chemicals, acids, and solvents is necessary.
• Marine and Offshore: Titanium’s excellent performance in seawater makes these flanges ideal for marine applications, such as offshore oil and gas platforms, desalination plants, and shipbuilding.
• Aerospace: Due to its strength and low weight, titanium slip-on flanges are used in aircraft fuel systems, hydraulic systems, and other aerospace applications.
• Power Generation: These flanges are used in high-pressure and high-temperature applications, such as heat exchangers, steam turbines, and other critical components in power plants.
• Pharmaceutical and Food Industries: Titanium’s non-reactivity makes it suitable for use in sanitary piping systems in the pharmaceutical and food industries, where hygiene and contamination-free operations are paramount.

Advantages of ANSI B16.5 Titanium Slip-On Flange

• Corrosion Resistance: Titanium’s superior resistance to corrosion in harsh environments, such as seawater, acidic chemicals, and high-temperature fluids.
• Lightweight: Lower weight than flanges made from other materials like steel, making handling, transportation, and installation easier.
• Durability: Excellent resistance to wear, erosion, and corrosion, ensuring a long lifespan with minimal maintenance.
• High Strength: Provides a reliable connection in high-pressure and high-temperature systems.
• Cost-Effective Installation: The slip-on design allows for faster, more economical installation compared to other types of flanges.
• Weldability: Easy to weld, providing a strong and durable connection to the piping system.

Applications

The ANSI B16.5 Titanium Slip-On Flange is widely used in various industries, including:

• Chemical Processing: For pipelines that handle aggressive chemicals and acids.
• Marine: Seawater applications, including offshore oil rigs and desalination plants.
• Aerospace: Fuel, hydraulic, and other critical systems in aerospace applications.
• Power Generation: In high-pressure and high-temperature piping systems.
• Food & Beverage, Pharmaceutical: Sanitary applications where non-reactive, easy-to-clean materials are essential.

Conclusion

The ANSI B16.5 Titanium Slip-On Flange offers a combination of strength, lightweight, corrosion resistance, and ease of installation, making it ideal for applications in chemical processing, marine, aerospace, and power generation industries. The Slip-On design allows for faster, more cost-effective installation, and the titanium material ensures exceptional durability and longevity, even in challenging environments. Whether dealing with high temperatures, corrosive substances, or demanding pressures, these flanges provide a reliable and long-lasting solution.

Packages of Titanium Slip On Flange

Rust Prevention

• VCI (Volatile Corrosion Inhibitor) Wrapping: Titanium flanges are wrapped in VCI paper to prevent any surface corrosion during transit. This material releases a chemical vapor that forms a protective layer on the metal surfaces.
• Grease or Oil Coating: A light layer of grease or oil may be applied to protect the flange surfaces, especially when being shipped over long distances or stored for extended periods.

Physical Protection

• Bubble Wrap or Foam: Each flange is typically wrapped in bubble wrap or surrounded by foam to cushion against impact during transportation.
• Cardboard Separators: When multiple flanges are packed in one box, cardboard separators are used to prevent them from touching and potentially scratching or damaging each other.

Robust Outer Packaging

• Wooden Crates or Plywood Boxes: Titanium flanges are often shipped in wooden crates or plywood boxes, which provide sturdy protection from mechanical damage and are stackable, facilitating easier and safer handling.
• Palletization: For large orders, flanges may be palletized. Each pallet is usually shrink-wrapped to secure the boxes or crates during handling and shipping.

Waterproofing

• Plastic Sheeting: Outer crates or boxes are often covered with thick plastic sheeting to protect against moisture, especially in humid or wet environments.

Labeling and Documentation

• Clear Labeling: Each package is clearly labeled with handling instructions, part numbers, and destination details to ensure proper handling and to facilitate tracking.
• Quality Assurance Documentation: Certificates of quality, material test reports, and compliance certificates are often included in the packaging or provided separately to ensure traceability and compliance with industry standards.