ASME B16.5 is the most widely used international standard for pipe flanges and flanged fittings. It covers nominal pipe sizes from NPS 1/2 to NPS 24, pressure classes including Class 150, 300, 600, 900, 1500, and 2500, as well as dimensions, materials, marking, pressure-temperature ratings, and testing requirements.

What is ASME B16.5 Socket Weld Flange

A socket weld flange (SW flange) is a type of forged flange with a recessed socket end. The pipe is inserted into this socket, and a fillet weld is applied around the outside of the flange hub.

Socket weld flanges are designed for small-diameter, high-pressure lines where strong, leak-resistant connections are required. They provide good alignment and reduce welding difficulty compared with other flange types.

ASME B16.5 Class 150 Socket Weld Flange Dimensions

Sealing Face Types of SW Flange

ASME B16.5 socket weld flanges use several standard sealing faces:

• Raised Face (RF)Most common type. A small raised surface provides gasket seating. Used in general industrial service.
• Flat Face (FF)Full flat face, used with flat gaskets, mostly for low-pressure applications.
• Ring Type Joint (RTJ)For high-pressure and high-temperature conditions, using metallic gaskets.

RF is the standard for Class 150 socket weld flanges.

Material Selection & Grades

Ø Carbon Steel

ASTM A105 – Standard material for Class 150 flanges

ASTM A350 LF2 – For low-temperature service

Ø Stainless Steel

ASTM A182 F304 / F304L

ASTM A182 F316 / F316L

Ø Alloy Steel (Chrome-Moly)

ASTM A182 F11

ASTM A182 F22

Ø Duplex Stainless Steel

ASTM A182 F51 (2205)

Materials are selected based on design pressure, temperature, medium, and application environment.

Marking Requirements

Flanges must be permanently marked according to ASME B16.5:

• Manufacturer’s trademark (Optional)
• Flange Name
• Nominal size
• Pressure class
• Hub Thickness (for weld neck flange)
• Sealing Face
• Material
• Standard
• Heat number (mandatory for cast steel flanges)

Clear marking ensures traceability and correct installation.

Applications

Socket weld flanges are recommended for:

• Small-bore piping (NPS 1/2 to NPS 4)
• High-pressure systems
• Clean, non-corrosive or mildly corrosive fluids
• Oil, gas, refining, power, and process piping
• Applications requiring good alignment and easy installation

They are not recommended for highly corrosive services where crevice corrosion may occur.

Installation Steps & Key Notes

Installation Steps

1. Clean the pipe end and flange socket.
2. Insert the pipe into the socket until it reaches the bottom.
3. Pull the pipe back slightly to leave a small expansion gap.
4. Perform fillet welding around the hub.
5. Finish welding and inspect for defects.

Key Notes

1. Maintain proper gap to avoid thermal stress.
2. Ensure full penetration of the fillet weld.
3. Use correct gaskets and fasteners matching flange rating.

Why Use Socket Weld Flange?

• Strong connection suitable for high pressure
• Good alignment, easy to install
• Smooth inner flow path, low turbulence
• Good fatigue resistance
• Compact design for limited space
• Ideal for small-diameter piping systems

These benefits make socket weld flanges a reliable choice for many industrial systems.

Socket Weld Flange vs Slip On Flange

Conclusion

ASME B16.5 Class 150 socket weld flanges provide a strong, reliable, and compact connection for small-bore piping systems. Understanding dimensions, materials, sealing faces, installation, and differences from slip on flanges helps engineers and buyers make correct selections for safe and efficient operation.

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ASME B16.5 Standard

ASME B16.5 is an international standard that specifies pipe flanges and flanged fittings for industrial piping systems. It defines nominal sizes, pressure-temperature ratings, dimensions, tolerances, materials, marking and testing requirements.

ASME B16.5 flanges are widely used in oil and gas, petrochemical, chemical, power generation, water treatment and general industrial applications. The standard ensures interchangeability, safety and stability for flanged connections. Threaded flanges under ASME B16.5 are usually available in pressure classes including Class 150, Class 300 and Class 600 etc, with size ranges mainly from NPS 1/2” to NPS 4”.

Threaded Flange – ASME B16.5

ASME B16.5 threaded flange is a flange with internal threads machined in the bore. It can be directly screwed onto external threaded pipes without welding. This design makes it ideal for applications where welding is difficult, dangerous or not permitted.

Compared with weld neck, slip-on and socket weld flanges, threaded flanges provide faster assembly and disassembly. They are commonly used in small-size piping systems that require quick installation or frequent maintenance. Although they are not designed for high-temperature or high-stress conditions, they perform reliably in many non-critical utility lines.

Characteristics of Threaded Flange

Threaded flanges under ASME B16.5 have distinct structural and functional characteristics:

• No welding required during installation
• Easy and fast assembly and disassembly
• Suitable for small-diameter piping systems
• Good for areas where hot work is restricted
• Lower installation cost compared with welded flanges
• Limited use in high-temperature, high-pressure or vibrating conditions
• Generally used in NPS 1/2” to NPS 4” sizes
• Compatible with various threaded pipe ends

These characteristics make threaded flanges a preferred choice in many light industrial and utility applications.

Thread Types – NPT/BSPT/BSPP

NPT (ASME B1.20.1) is the thread type specified in ASME B16.5 for threaded flanges. It is a tapered thread that creates a pressure-tight seal when tightened, making it the universal choice for North American and global industrial systems. All standard ASME B16.5 threaded flanges are manufactured with NPT threads.

BSPT (British Standard Pipe Taper) – Custom Option

BSPT is a tapered thread used in British and Commonwealth markets. It is not part of the ASME B16.5 standard but is available as a custom thread for regional compatibility.

BSPP (British Standard Pipe Parallel) – Custom Option

BSPP is a parallel thread that requires a gasket or Oring for sealing. It is used in hydraulic, pneumatic, and some European systems and is offered as a non-standard custom thread for ASME B16.5 flanges.

Sealing Faces of ASME B16.5 Threaded Flange

The sealing face of a threaded flange directly affects leakage prevention and compatibility with gaskets. Common sealing face types under ASME B16.5 include:

Raised Face (RF)

Raised Face is the most popular sealing face for threaded flanges. It provides good sealing with most gasket types and fits general industrial applications.

Flat Face (FF)

Flat Face is used mainly in low-pressure systems and is often matched with cast iron valves or equipment to avoid damage during assembly.

Ring Type Joint (RTJ)

RTJ is used in high-pressure and high-temperature conditions, though less common for standard threaded flanges.

To know more about flange sealing faces, please click.

Weight Reference for Carbon Steel Threaded Flange

Why Choose ASME B16.5 Threaded Flange?

There are many practical reasons to choose ASME B16.5 threaded flanges:

• No welding needed, which saves time and labor costs
• Allowed in areas where welding or hot work is prohibited
• Easy installation and maintenance
• Suitable for small-bore pipes and low-pressure systems
• Interchangeable with other ASME B16.5 flanges
• Wide availability of materials and sizes
• Ideal for temporary or removable piping connections

For projects that prioritize speed, safety and convenience, threaded flanges are an excellent solution.

Where to Apply Threaded Flange?

ASME B16.5 threaded flanges are widely used in many industries and systems:

• Compressed air piping
• Water supply and utility lines
• Chemical processing for small pipes
• Petroleum refining auxiliary systems
• Fire protection systems
• Pneumatic and hydraulic circuits
• Facilities where welding is restricted
• Maintenance and temporary piping connections

They are especially suitable for low-pressure, small-diameter and non-critical applications.

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In the pipe and flange industry, the terms ANSI flange and ASME B16.5 flange are often used interchangeably. Many buyers, engineers, and suppliers use these names synonymously, which raises a common question: “Are ANSI and ASME B16.5 flanges the same standard?”

The short answer is no—but they are closely related. This article breaks down the real distinction between ANSI and ASME B16.5, explains why the confusion exists, and outlines how these terms are typically used in purchasing, engineering, and production.

What is ANSI?

A key point to clarify upfront: ANSI is not a flange standard.

ANSI stands for American National Standards Institute, an organization that approves and recognizes standards developed by other technical bodies. ANSI does not:

• Establish flange dimensions
• Set pressure ratings
• Outline material requirements
• Create flange design guidelines

ANSI’s primary role is to review, approve, and coordinate standards across various industries, with no specific focus on pipe flanges.

What is ASME B16.5?

ASME stands for American Society of Mechanical Engineers, and ASME B16.5 is the official, globally recognized standard for pipe flanges and flanged fittings.

This standard covers a range of key specifications, including:

• Nominal pipe sizes from NPS 1/2 to NPS 24
• Pressure classes: Class 150, 300, 600, 900, 1500, and 2500
• Flange types: Weld Neck, Slip-On, Blind, Threaded, Socket Weld, Lap Joint
• Facing types: RF, FF, RTJ, M/FM, TG
• Pressure-temperature ratings
• Material specifications
• Tolerances and marking requirements

For industrial flanges, ASME B16.5 serves as the primary technical reference.

Confusion Between ANSI and ASME B16.5

The overlap between these terms stems from historical context and industry tradition.

In earlier iterations, the flange standard was officially published as ANSI B16.5. Over time, ASME took over full responsibility for developing and updating the standard, and its current official name is:

ASME B16.5 Pipe Flanges and Flanged Fittings

Even so, the term “ANSI flange” became so widespread that it remains in common use today.

To simplify:

• Historical name: ANSI B16.5
• Current official name: ASME B16.5

This is why both terms appear regularly in catalogs, websites, and customer requests.

Key Distinctions Between ANSI and ASME B16.5

Below is a summary of the key differences to provide clarity:

1. ANSI is an organization, while ASME B16.5 is a standard.
2. ANSI does not develop flange specifications—ASME B16.5 defines all technical requirements.
3. “ANSI flange” is a common industry term, not an official standard designation.
4. For manufacturing and certification, ASME B16.5 is the standard most commonly referenced.

In design, ordering, or inspection processes, ASME B16.5 is the typical reference point for flanges.

Can ANSI and ASME B16.5 Flanges Be Used Interchangeably?

Yes—they are fully interchangeable in practical applications.

When a customer requests:

• “ANSI Class 150 flanges”
• “ANSI B16.5 weld neck flanges”

They are generally seeking flanges that meet the ASME B16.5 standard.

Flanges manufactured to ASME B16.5 can be safely supplied in these cases, as they will fit and perform as expected. There is no compatibility issue, since both terms refer to the same design and dimensions.

How to Use the Terms

In day-to-day communication:

• “ANSI flange” is widely understood and acceptable for general reference.

For technical documents, drawings, purchase orders, and certifications:

• ASME B16.5 is the preferred and official term.

Using the official name in technical contexts helps ensure clarity and professionalism.

Conclusion

ANSI and ASME B16.5 flanges are not the same standard.

• ANSI is an organization that approves standards.
• ASME B16.5 is the official standard for pipe flanges.
• “ANSI flange” is a widely used industry term, not a formal standard.
• In purchasing and production, ASME B16.5 is the standard typically followed.

In short, when you encounter the terms “ANSI flange” or “ANSI B16.5 flange,” they almost always refer to flanges that conform to ASME B16.5.

The post ANSI vs ASME B16.5 Flanges: Are They the Same Standard? appeared first on Quality Manufacturer of Industrial Pipe Fittings.

ASME B16.5 is the most widely adopted international standard covering pipe flanges and flanged fittings for industrial piping systems. It defines standardized dimensions, pressure-temperature ratings, materials, tolerances, and testing requirements for flanges ranging from NPS 1/2” to 24”.

Compliance with ASME B16.5 guarantees interchangeability, structural safety, and consistent performance across global industries. This standard ensures that flanges from different manufacturers can be safely connected and used together in the same piping system.

Types of ASME B16.5 Flanges

ASME B16.5 classifies flanges into several main types to suit different connection methods and service conditions:

• Weld Neck Flanges
• Slip-On Flanges
• Blind Flanges
• Socket Weld Flanges
• Lap Joint Flanges
• Threaded Flanges

Each type serves specific applications, among them weld neck flanges are widely recognized as the most reliable flanges for high-pressure, high-temperature, and critical service environments.

ASME B16.5 Flange Pressure Ratings

Pressure classes are one of the most important parameters of ASME B16.5 flanges. They represent the maximum allowable working pressure under designated temperature conditions.

The standard pressure ratings include:

• Class 150
• Class 300
• Class 600
• Class 900
• Class 1500
• Class 2500

Higher pressure classes require thicker bodies, larger bolt circles, and stronger structural design to withstand extreme operating pressures and temperatures.

ASME B16.5 Weld Neck Flange

An ASME B16.5 weld neck flange, commonly abbreviated as WN flange, is distinguished by its long, tapered hub that provides a smooth transition from the flange to the pipe wall. This hub is welded directly to the pipe, creating an extremely strong and durable joint.

The design effectively reduces stress concentration, improves flow characteristics, and enhances resistance to vibration, fatigue, and thermal cycling. For these reasons, weld neck flanges are widely used in the most demanding and critical piping systems worldwide.

Besides, ASME B16.5 weld neck flanges are available in several common sealing face types to suit different sealing requirements. They are: Raised Face (RF), Ring Type Joint (RTJ), Flat Face (FF), Tongue and Groove (T&G), and Male and Female (M&F). Among these, RF is the most popular for general service, while RTJ is typically used for high-pressure and high-temperature applications.

Key Dimension Terms Explained

To accurately use flange dimension charts, it is essential to understand the following terms:

• NPS: Nominal Pipe Size
• OD: Outside Diameter of the flange
• BCD: Bolt Circle Diameter
• Hub Dia: Hub diameter at the welding end
• Bore: Inner diameter matching the pipe schedule
• Flange Thk: Flange thickness
• RF Height: Raised Face height for sealing performance

All these dimensions are strictly defined under the ASME B16.5 standard.

ASME B16.5 WN Flange Dimensions Class 150

Class 150 is the most commonly used pressure rating for general industrial applications, offering an excellent balance of performance, cost, and ease of installation.

Below is the standard dimension table for ASME B16.5 Class 150 weld neck flanges:

NPS 1/2-4

NPS 5-24

All dimensions are for reference only. Slight tolerances may vary between manufacturers.

ASME B16.5 WN Flange Weight Chart for All Classes

Flange weight is critical for quotation, shipping cost calculation, container loading, and structural design. Weight increases significantly with pressure class due to thicker material and larger dimensions.

Below is the approximate weight chart for ASME B16.5 weld neck flanges across all standard pressure classes, based on carbon steel material:

Weights are approximate. Actual weight may differ by material, production process, and manufacturer.

Advantages of ASME B16.5 WN Flange

Weld neck flanges provide outstanding advantages over other flange types:

• Extremely high structural strength and long service life
• Excellent resistance to high pressure, high temperature, and vibration
• Smooth bore design reduces flow resistance and turbulence
• Low stress concentration at the welded joint
• Outstanding performance under thermal cycling and fatigue loads
• Suitable for critical, hazardous, and heavy-duty applications
• Fully compatible with all standard ASME B16.5 materials and pressure classes

These benefits make weld neck flanges the top choice for critical piping systems.

Common Materials for ASME B16.5 Weld Neck Flange

ASME B16.5 weld neck flanges are manufactured in a full range of materials to meet different working conditions:

• A105: Carbon steel for general-purpose applications
• A350 LF2: Carbon steel for low-temperature service
• A182 F304 / F316: Stainless steel for corrosion resistance
• A182 F11, F22, F91: Alloy steel for high-temperature and high-pressure service

Material selection depends on medium, temperature, pressure, and environmental requirements.

Typical Applications

ASME B16.5 weld neck flanges are used across nearly all major industries:

• Oil and gas gathering and transmission pipelines
• Petroleum refineries and petrochemical plants
• Thermal power and nuclear power facilities
• Chemical processing and pharmaceutical systems
• High-pressure boiler and utility piping
• Water treatment, metallurgy, and marine applications

They are the preferred flange type for projects that demand safety, stability, and long-term reliability.

Conclusion

ASME B16.5 remains the global foundation standard that ensures safety, compatibility, and performance for industrial pipe flanges. Among all flange designs, the weld neck flange represents the highest level of structural integrity, sealing reliability, and versatility for extreme working conditions.

Accurate understanding of dimensions, pressure ratings, and weight data is essential for proper flange selection, cost control, system safety, and long-term operational stability. Adhering to ASME B16.5 standards helps minimize risks, improve interchangeability, and ensure consistent performance across entire piping systems.

For customized flange solutions, precise dimensional data, optimized material selection, detailed weight lists, test reports, or formal quotations tailored to your project requirements, we recommend working with a qualified and experienced ASME B16.5 flange manufacturer. Professional support ensures full compliance with industry standards and project specifications.

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Sealing face is critical contact surface of ASME B16.5 flange that mates with gaskets to create a leak-tight seal. The surface’s design, dimensions, and finish directly determine the sealing reliability of piping connections. ASME B16.5 strictly regulates sealing face geometry, surface finish, and tolerances. It ensures universal compatibility across flanges, gaskets, and fasteners from different manufacturers.

Among the various sealing face designs, Raised Face (RF), Flat Face (FF), and Ring Type Joint (RTJ) are the most widely used in industrial applications. All are engineered to meet specific pressure, temperature, and media requirements while adhering to strict ASME B16.5 compliance criteria.

ASME B16.5 Sealing Face Types: RF, FF & RTJ

ASME B16.5 categorizes RF, FF, and RTJ as primary designs for industrial flanged connections, each with distinct structural characteristics tailored to different operating conditions. All three types must comply with the standard’s dimensional and material specifications. But their unique geometries make them suitable for varying pressure ranges and application scenarios.

The Raised Face (RF) features a surface raised above the flange’s bolt circle plane. The Flat Face (FF) is flush with the bolt circle plane for low-pressure use. And the Ring Type Joint (RTJ) incorporates a circular groove to mate with a metal ring gasket for high-pressure/high-temperature service. Together, these three designs cover the majority of industrial piping needs, from low-pressure water and gas lines to high-pressure refinery and power plant systems, with ASME B16.5 ensuring consistent manufacturing and interchangeability for each type.

Specification for RF (Raised Face)

ASME B16.5 outlines precise technical specifications for Raised Face (RF) sealing faces. And RF sealing face is the most versatile and commonly used design across Class 150 to 2500 flanges. The standard mandates two primary raised face heights: 1.6 mm (1/16″) for Class 150 and 300 flanges, and 6.4 mm (1/4″) for Class 400, 600, 900, 1500, and 2500 flanges. The raised face’s diameter (sealing surface) is strictly defined relative to the flange’s nominal pipe size (NPS) and pressure class, with tight dimensional tolerances to ensure proper gasket fit.

For surface finish, ASME B16.5 requires a 125–250 microinch Ra (3–6 μm Ra) serrated finish. It is typically created by concentric or spiral machining with 45–55 grooves per inch. The serrations enhance gasket contact and create a mechanical seal by trapping fluid within the grooves, preventing leakage.

Additionally, the standard specifies that RF faces must be free of scratches, pits, and deformities. And the raised surface must be concentric with the flange bore to ensure uniform gasket compression during bolt tightening.

All RF flanges must be marked with ASME B16.5 compliance, including pressure class, NPS, and material grade, to verify adherence to these specs.

Specification for FF (Flat Face)

Flat Face (FF) sealing faces are governed by ASME B16.5 specifications tailored exclusively for Class 150 and lower pressure ratings. It’s designed for low-stress, non-critical industrial piping applications. ASME B16.5 mandates that FF surfaces be perfectly flush with the flange’s bolt circle plane, with no raised or recessed areas. This is to ensure full contact with non-metallic full-face gaskets. And it is also the only gasket type approved for FF flanges by the standard.

The surface finish requirement for FF faces is a 250–500 microinch Ra (6–12 μm Ra) smooth finish. This is less aggressive than RF serrations to prevent damage to soft non-metallic gaskets (e.g., rubber, PTFE, non-asbestos) during installation.

ASME B16.5 strictly prohibits pairing FF flanges with RF flanges. Mainly because the mismatched surfaces create uneven gasket compression and almost always result in leakage. The standard also specifies tight flatness tolerances for FF faces (no more than 0.001″ per inch of diameter) to ensure uniform pressure distribution across the gasket, and requires that bolt holes be positioned to avoid interference with the sealing surface.

Like all ASME B16.5 flanges, FF units must include compliance markings and dimensional verification to meet the standard’s quality criteria.

Specification for RTJ (Ring Type Joint)

Ring Type Joint (RTJ) sealing faces are designed for Class 600 to 2500 high-pressure/high-temperature (HP/HT) piping systems. And engineered for extreme operating conditions in oil and gas exploration, refineries, and power generation.

ASME B16.5 defines RTJ faces as a circular groove machined into the flange face, with precise groove dimensions (width, depth, and radius) that vary by pressure class and NPS. The groove is designed to perfectly cradle a metal ring gasket that deforms plastically under bolt pressure to create a metal-to-metal seal.

The standard mandates a ≤ 1.6 μm Ra (63 microinch Ra) mirror-smooth finish on the groove’s sidewalls. Mainly aims to ensure maximum contact with the metal ring and prevent leakage in HP/HT service. ASME B16.5 also specifies that RTJ flanges must be manufactured from high-strength alloy steels to withstand extreme pressure and temperature. And the groove must be concentric with the flange bore to ensure even ring compression.

The standard prohibits modifying RTJ groove dimensions, as any deviation from ASME B16.5 specs will compromise the metal-to-metal seal and lead to catastrophic failure in critical systems. All RTJ flanges must undergo rigorous dimensional inspection and pressure testing to confirm ASME B16.5 compliance.

ASME B16.5 Flange Types & Sealing Faces

Critical ASME B16.5 Compliance Requirements for All Sealing Faces

Beyond type-specific specifications, ASME B16.5 enforces universal compliance requirements for RF, FF, and RTJ sealing faces.

First, dimensional accuracy is non-negotiable. All sealing face geometries (height, diameter, groove size, flatness) must fall within the standard’s tight tolerance ranges with no deviations that could affect gasket fit or seal integrity.

Second, surface quality is mandated for all types. Sealing faces must be free of scratches, dents, pits, rust, and machining burrs, as any surface imperfection can create a leak path for process media.

Third, material compatibility is required. The flange material (and thus the sealing face material) must be approved by ASME B16.5 for the intended pressure, temperature, and media. Together with corrosion-resistant coatings (e.g., galvanizing, passivation) specified for harsh environments in line with the standard.

Fourth, marking and traceability are mandatory. Every ASME B16.5 flange must be permanently marked with the standard designation (ASME B16.5), pressure class, NPS, material grade, manufacturer’s name, and heat number, enabling full traceability and compliance verification.

Finally, performance testing is required for critical applications. ASME B16.5 specifies hydrostatic and pneumatic testing protocols for flanges with sealing faces to confirm leak-tightness at pressures above the rated operating pressure.

Violation of any of these universal requirements results in a loss of ASME B16.5 compliance and renders the flange unfit for industrial use.

How to Ensure ASME B16.5 Sealing Face Compliance in Production

Manufacturing RF, FF, and RTJ sealing faces that meet ASME B16.5 compliance requires a rigorous, standardized production process with strict quality control at every stage.

The process begins with raw material verification. Only ASME B16.5-approved steel grades (e.g., A105, A350 LF2, A182 F304) are used, with material certificates and heat number traceability to confirm compliance.

Next, precision machining is critical. CNC machines with calibrated tooling are used to produce sealing face geometries (RF height, FF flatness, RTJ groove dimensions) to ASME B16.5’s exact tolerances, with real-time dimensional monitoring to avoid deviations. For surface finish, specialized machining tools are used to create the ASME-specified serrations (RF) or smooth finish (FF/RTJ). With surface roughness testers verifying Ra values meet the standard’s requirements.

After machining, 100% dimensional inspection is performed using calibrated gauges, micrometers, and coordinate measuring machines (CMM) to confirm all sealing face specs align with ASME B16.5.

Surface quality inspection follows, with visual and tactile checks to ensure no imperfections, and non-destructive testing (NDT) (e.g., PT, MT) for critical HP/HT RTJ flanges.

Finally, permanent marking is applied in accordance with ASME B16.5. And a compliance certificate is issued for each flange, documenting material, dimensions, finish, and testing results.

Implementing a certified quality management system (e.g., ISO 9001) further ensures consistent ASME B16.5 compliance, with regular audits and tool calibration to maintain production standards.

Application Scenarios

ASME B16.5-compliant RF, FF, and RTJ sealing faces are engineered for specific industrial application scenarios. Their design and compliance specs match the unique demands of different operating conditions.

Flat Face (FF) flanges are ideal for low-pressure, low-temperature non-critical systems (Class 150 and below). Such as municipal water lines, low-pressure air compressors, and general manufacturing process piping with non-corrosive media (water, air, mild chemicals). They are the preferred choice for applications where easy installation and compatibility with soft non-metallic gaskets are prioritized.

Raised Face (RF) flanges are the all-purpose workhorse of industrial piping, suitable for Class 150 to 2500 systems across oil and gas, petrochemical, and power generation. They are used for a wide range of media and operating temperatures. Also they offer a balance of sealing reliability, cost-effectiveness, and ease of installation. All these characteristics make them the most commonly specified ASME B16.5 sealing face type.

Ring Type Joint (RTJ) flanges are exclusively used for high-pressure/high-temperature critical systems (Class 600 to 2500). For example, oil and gas wellheads, refinery fractionation columns, power plant boiler systems, and chemical reactors handling extreme process conditions. That is, high-pressure steam, corrosive hydrocarbons, high-temperature fluids. Their metal-to-metal seal ensures leak-tight performance in scenarios where RF and FF flanges would fail. Strict ASME B16.5 compliance is critical to prevent catastrophic system failure in these high-risk applications.

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