1.High corrosion resistance 2.Strong bearing,Light weight 3.Easy installation 4.Excellent fatigue durability 5.Plastic pipes Features: 1. High corrosion resistance 2. Excellent fatigue durability, more than 30 years design service life 3.Strong bearing, high safety coefficient 4. Light weight, easy installation 5. Fine tightness connected with steel pipe 6. No electrical conductivity, smooth internal surface and low friction coefficient improve the efficiency of fluid transport 7. High, middle, low pressure rating satisfy different medium transport
Flanges used for steel pipeâ??s connection are various. So we should make our flanges lead to the purpose of our steel pipes like seamless or erw steel pipe. So we need to do some lesson before purchase. Function of long weld neck flanges is predominantly on vessels. We know that vessels have some places need an extended neck so flange can do this job for us. The purpose of tapered neck is to reduce the thickness of the steel and it then seems to be a pipe extension. The combination of steel pipe and long weld neck flange would make the whole engineering project easy and convenient. Utilized in the chemical and petroleum industries, as well as commercial and residential buildings that experience high levels of stress and temperatures that fluctuate, flanges have played an important part during our daily life.
1.High corrosion resistance 2.Strong bearing,Light weight 3.Easy installation 4.Excellent fatigue durability 5.Plastic pipes Features: 1. High corrosion resistance 2. Excellent fatigue durability, more than 30 years design service life 3.Strong bearing, high safety coefficient 4. Light weight, easy installation 5. Fine tightness connected with steel pipe 6. No electrical conductivity, smooth internal surface and low friction coefficient improve the efficiency of fluid transport 7. High, middle, low pressure rating satisfy different medium transport
A threaded flange is a type of flange that uses a screw thread to connect the flange to a pipe. A male thread is cut onto a pipe end whilst a female thread is cut into the bore of the flange; the male threaded pipe is then screwed into the female threaded flange. Threaded flanges are available in a variety of sizes and pressure ratings, and are typically made from Various Materials. Technical Specifications 1. Materials: Carbon steel, stainless steel, alloy steel, 2. Size: �½ inch to 24 inches 3. Classes: 150, 300, 400, 600, 900, 1500, 2500 4. Thread type: NPT, BSP, BSPT, BSPP 5. Face type: Flat, Raised and Ring Joint 6. Dimensions: ANSI B16.5, ASME B16.47, Advantages of Threaded Flanges: A. Easy to install and maintain B. No welding required C. Suitable for a variety of applications D. Available in a variety of sizes and pressure ratings Applications: Threaded flanges are used in a variety of applications, including: a. Water and wastewater systems b. Oil and gas pipelines c. Chemical processing plants d. HVAC systems e. Fire protection systems
A spectacle blind flange is a safety device used to isolate a section of pipeline or equipment when they need to be inspected or removed from piping system. It is not like a valve, the spectacle blind flange is a permanent or long term isolation block. The spectacle blind flange is made of two pieces metal discs which are joint together by a part of steel handle. The two discs are connected by a hinge, so that the blind flange can be rotated to open or close the pipeline. Technical Specifications a. Material: Carbon steel, stainless steel, alloy steel b. Standard: ASME B16.47 c. Face type: Raised face (RF), flat face (FF), ring type joint face (RTJ) d. Size: 12/â?? to 24â?? e. Pressure rating: 300,600,900,1500,2500 Lbs Features A. Easy to install and remove B. Permanent or long term isolation C. Cost-effective alternative to isolation valves D. Wide range of materials and sizes available Applications A. Pipelines B. Process equipment C. Boilers D. Tanks E. Vessels Benefits 1. Safety: Prevents accidental release of fluids or gases 2. Cost-effectiveness: More affordable than isolation valves 3. Convenience: Easy to install and remove 4. Durability: Made from high-quality materials
DIN Standard Flanges are a type of flange that is manufactured to the DIN (Deutsches Institut Normung) standard. DIN flanges are available in a variety of styles, including slip-on, weld-neck, blind, threaded, and socket weld. They are made from a variety of materials, including carbon steel, alloy steel, and stainless steel. DIN flanges are used in a wide range of applications, including industrial piping systems, pressure vessels, and boilers. Technical Specifications A. Pressure rating: From PN6 to PN40. B. Temperature rating: From -20'C to +250'C. C. Material: Carbon Steel, Alloy Steel, and Stainless Steel. D. Finish: DIN flanges are available in a variety of finishes, including hot dip galvanized, painted, and stainless steel. Applications DIN Standard Flanges are used in a wide range of applications, including: 1. Industrial piping systems 2. Pressure vessels 3. Boilers 4. Tanks 5. Valves 6. Fittings Advantages Some of the advantages of DIN Standard Flanges include: I. They are manufactured to a high standard of quality. II. They are available in a variety of styles and materials. III. They are compatible with a variety of other piping components. IV. They are relatively easy to install and maintain.
Carbon steel flanges are a type of flange that is made of carbon steel. Carbon steel is a type of steel that contains carbon as its primary alloying element. Carbon steel flanges are typically used in applications where strength and durability are important. They are also relatively inexpensive, making them a cost-effective option for many applications. Technical Specifications 1. Material: Carbon steel 2. Size: �½ Inch to 24 Inch 3. Type: RF, FF, RTJ 4. Pressure rating: Class 150 to 2500 5. Temperature range: -200�°F to 1200�°F 6. Finish: Black, mill scale, or hot dipped galvanized 7. Dimensions: ANSI/ASME B16.5, DIN 2533, or MSS SP-44 Applications a. Oil and gas pipelines b. Chemical processing plants c. Power plants d. Water treatment facilities e. HVAC systems Advantages 1. Strength 2. Durability 3. Inexpensive 4. Wide variety of applications
Mild Steel Flanges are a type of flange made from mild steel. Mild steel is a low-carbon steel that is strong and ductile, making it a good choice for flanges that need to be able to withstand high pressures and temperatures. Mild Steel Flanges are typically used in a variety of industries, including the oil and gas industry, the chemical industry, and the water treatment industry. Technical Specifications 1. Material: Mild Steel 2. Size: ½ Inch to 24 Inch 3. Type: RF, FF, RTJ 4. Pressure rating: Class 150 to 2500 5. Carbon Content: 0.05%-0.25% 6. Yield Strength: 370 MPa 7. Tensile Strength: 440 MPa 8. Hardness: 126 Brinell 9. Temperature Rating: Up to 500�°F 10. Dimensions: ANSI/ASME B16.5, DIN 2533, Other Features Mild Steel Flanges are available in a variety of sizes and styles, including slip-on flanges, weld neck flanges, and socket weld flanges. They can also be finished in a variety of ways, including hot dip galvanizing, painting, and powder coating. Applications a. Oil and gas industry b. Chemical industry c. Water treatment industry d. Power generation industry e. HVAC industry f. Marine industry Advantages A. Strong and ductile B. Affordable C. Widely available D. Easy to fabricate E. Can be finished in a variety of ways
A ring joint flange is a type of flange that uses a metal ring to create a leak-proof seal between two pipes. The metal ring is placed in a groove on the face of the flange and is compressed when the bolts are tightened. This compression creates a tight seal that prevents the flow of fluids or gases between the pipes. Material: Carbon Steel, stainless steel, nickel alloy Size: 1" to 24" Pressure rating: 150# to 2500# Class: ANSI Class 150, 300, 600, 900, 1500, 2500 Standard: ANSI B16.5, API 6A, DIN EN 1092-1 Ring joint flanges are a reliable and effective way to create a leak-proof seal. They are used in a variety of applications where a high level of safety and reliability is required.
A BLRF flange, or blind raised face flange, is a type of flange that is used to blank off the end of a pipe. It is a flat plate with a raised face, and it has all the necessary bolt holes for installation. BLRF flanges are typically made from steel, stainless steel, or alloy steel, and they are available in a variety of sizes and pressure ratings. Technical Specifications: Type: Blind Raised Face Material: Carbon Steel, Stainless Steel, or Alloy Steel Nominal pipe size (NPS): 1/2" to 24" Flange pressure class: 150 to 2500 Standard: ASME B16.5 or ASME B16.47 Facing: Raised face Bolt holes: ANSI #10 or #12 Finish: Black, mill finish, or hot dipped galvanized Applications: Piping systems Valves Pumps Tanks Pressure vessels Instrumentation Advantages: They are strong and durable. They are easy to install. They are available in a variety of sizes and materials. They are cost-effective.
ASME B16.5 flanges are a set of American Society of Mechanical Engineers (ASME) standards that define the dimensions, materials, and tolerances for pipe flanges and flanged fittings. The standard covers flanges made from cast or forged materials, and blind flanges and certain reducing flanges made from cast, forged, or plate materials. It also includes requirements and recommendations regarding flange bolting, flange gaskets, and flange joints. The ASME B16.5 standard is used in conjunction with other ASME standards, such as the Boiler and Pressure Vessel Code and the B31 Piping Codes. It is also widely accepted in other countries, and is often referred to as the ANSI B16.5 standard. The ASME B16.5 standard defines six types of flanges: Weld neck flanges Slip-on flanges Socket weld flanges Threaded flanges Lap joint flanges Blind flanges Reducing flanges Each type of flange has different dimensions and requirements. For example, weld neck flanges have a neck that is welded to the pipe, while slip-on flanges are simply slipped over the pipe. The ASME B16.5 standard is an important reference standard for the design, construction, and installation of piping systems. It ensures that flanges and flanged fittings are safe and reliable, and that they can withstand the pressures and temperatures of the application. Here are some of the key features of ASME B16.5 flanges: We have available in a variety of materials, including carbon steel, stainless steel, and alloy steel. We have a variety of pressure-temperature ratings, from 150 psi to 2500 psi. We have available in a variety of flange types, to suit different applications.
ASME B16.47 is an American Society of Mechanical Engineers (ASME) standard that specifies the dimensions, materials, and tolerances for large diameter steel pipe flanges. The standard covers flanges with nominal pipe sizes (NPS) from 26 to 60 and pressure class ratings from 75 to 900. ASME B16.47 flanges are divided into two series: Series A and Series B. Series A flanges are based on the MSS SP-44 standard, while Series B flanges are based on the API 605 standard. The main difference between the two series is that Series A flanges have a larger bolt circle diameter than Series B flanges. ASME B16.47 flanges are typically used in high-pressure and high-temperature applications, such as in the oil and gas industry. They are also used in other industries, such as the chemical, power, and water treatment industries. Here are some of the key features of ASME B16.47 flanges: They are made of steel, cast iron, or stainless steel. They have a raised or flat face. They have a bolt circle diameter that ranges from 125 to 600 millimetres. They have a pressure class rating that ranges from 75 to 900. They have a thickness that ranges from 6.3 to 127 millimetres. ASME B16.47 flanges are an important part of many piping systems. They help to ensure the safe and reliable operation of these systems.
The ASME B16.48 standard covers operating line blanks in sizes NPS 1â??2 through NPS 24 for installation between ASME B16.5 flanges in the 150, 300, 600, 900, 1500, and 2500 pressure classes. A line blank is a pressure-retaining plate that is used to block off a section of pipe. It is typically made of steel or cast iron and has a variety of features, including a raised face, flat face, or grooved face. The ASME B16.48 standard specifies the dimensions, tolerances, materials, and markings for line blanks. There are two main types of line blanks: Spectacle blind flanges: These have a solid end and an open end connected by a web or tie bar. Paddle blanks: These are similar to the solid end of a spectacle blind flange, but they have a plain radial handle. Line blanks are used in a variety of applications, including: To isolate a section of pipe for maintenance or repair To prevent the flow of fluid in a pipe To provide a test point for a piping system The ASME B16.48 standard is an important specification for the design and manufacture of line blanks. It ensures that line blanks are safe and reliable, and that they meet the requirements of the applicable codes and regulations.
An ASME B16.36 flange is an orifice flange, which is a type of flange used for measuring the flow rate of fluids in a pipeline. It is defined by the American Society of Mechanical Engineers (ASME) standard B16.36. Orifice flanges have two pairs of pressure tappings, which are machined holes on the flange that allow the fluid pressure to be measured. The orifice plate, which is a thin plate with a calibrated hole, is installed between the flanges. The flow rate of the fluid is determined by the difference in pressure between the two sides of the orifice plate. ASME B16.36 flanges are available in a variety of materials, including carbon steel, stainless steel, and alloy steel. They are also available in a variety of sizes and pressure ratings. Here are some of the key features of ASME B16.36 flanges: They are used to measure the flow rate of fluids in pipelines. They have two pairs of pressure tappings. The orifice plate is installed between the flanges. They are available in a variety of materials and sizes. They are designed to meet the ASME B16.36 standard. Here are some of the applications of ASME B16.36 flanges: Oil and gas pipelines Chemical plants Power plants Water treatment plants Wastewater treatment plants Other industrial applications
BS 4504 is an obsolete British Standard that specifies the dimensions and tolerances of flanges and bolting for pipes, valves, and fittings. It is now superseded by EN 1092-1, but it remains in use for the dimensions of light duty, economy stainless steel flanges in applications where corrosion resistance and hygiene, rather than high pressures and temperatures, are the primary considerations. BS 4504 covers four types of flanges: Plain flanges Boss flanges Integrally cast or forged flanges Weld neck flanges The flanges are available in a variety of materials, including carbon steel, stainless steel, alloy steel, and copper. They are also available in a variety of pressure ratings, from PN6 to PN40. The technical specifications of BS 4504 flanges are as follows: Nominal size: DN10 to DN400 Pressure rating: PN6 to PN40 Material: Carbon steel, stainless steel, alloy steel, copper Finish: Plain, raised face, grooved Bolting: DIN 2566 or BS 3692 BS 4504 flanges are used in a variety of applications, including: Water and wastewater treatment Chemical processing Food and beverage processing Pharmaceutical manufacturing Power generation Oil and gas
Product description: A BS 10 flange is a type of flange that conforms to the British Standard BS 10, 1962. It is a plain, boss, integrally cast or forged, and welding neck type flange. BS 10 flanges are available in a variety of materials, including carbon steel, stainless steel, alloy steel, and copper alloy steel. They are used in a variety of applications, including piping systems, valves, and fittings. Technical specifications: Dimensions: BS 10 flanges are available in a variety of sizes, from 15mm to 600mm. Pressure rating: BS 10 flanges are available in a variety of pressure ratings, from 150 psi to 2500 psi. Bolting: BS 10 flanges are typically bolted together with a variety of bolts, including socket weld bolts, slip-on bolts, and weld neck bolts. Finish: BS 10 flanges are typically finished in a variety of finishes, including hot dip galvanized, electroplated, and painted.
EN 1092-1 flanges are circular steel flanges that are used in piping systems. They are specified by their pressure class (PN), nominal size (DN), and flange type. The pressure class indicates the maximum pressure that the flange can withstand, and the nominal size indicates the inside diameter of the pipe that the flange is designed for. The flange type refers to the shape of the flange face and the method of attachment to the pipe. The EN 1092-1 standard specifies the following flange types: Type 01: Plate flange for welding Type 02: Loose plate flange with weld-on plate collar Type 03: Weld neck flange Type 04: Loose flange with weld-neck collar Type 05: Blind flange Type 21: Integral flange Type 31: Weld neck flange with raised face Type 32: Weld-on plate collar with raised face Type 33: Blind flange with raised face Type 34: Socket weld flange Type 35: Socket weld flange with raised face The EN 1092-1 standard also specifies the materials that can be used for EN 1092-1 flanges, the surface finish of the flange faces, and the tolerances for the dimensions of the flanges. Here are some of the key technical specifications of EN 1902-1 flanges: Nominal sizes: DN 10 to DN 4000 Pressure classes: PN 2.5 to PN 400 Materials: Carbon steel, stainless steel, ductile iron Facings: Raised face (RF), flat face (FF), ring joint (RJ), tongue and groove (TG) Dimensions and tolerances: Defined in EN 1902-1 Marking: Defined in EN 1902-1 EN 1092-1 flanges are used in a variety of applications, including water, gas, and oil pipelines, as well as in chemical and process industries. They are a reliable and versatile type of flange that can be used in a wide range of conditions.
A stainless steel flange is a type of flange that is made of stainless steel. Stainless steel is a corrosion-resistant alloy of iron, chromium, and nickel. It is commonly used in applications where corrosion resistance is important, such as in the chemical, food, and pharmaceutical industries. The technical specifications of a stainless steel flange will vary depending on the type of flange, the material grade, and the pressure rating. However, some common specifications include: Nominal pipe size (NPS): The NPS is the standard size of the pipe that the flange will be used with. Pressure rating: The pressure rating is the maximum pressure that the flange can withstand. Material grade: The material grade is the type of stainless steel that the flange is made of. Common material grades include ASTM A182 F304 and F316. Face type: The face type is the shape of the flange's face. Common face types include raised face (RF), flat face (FF), and ring-type joint (RTJ). Bolting arrangement: The bolting arrangement is the number and size of the bolts that are used to connect the flanges. Here is a more detailed description of the different types of stainless steel flanges: Weld neck flange: A weld neck flange is a type of flange that has a neck that is welded to the pipe. This type of flange is typically used for high-pressure applications. Slip-on flange: A slip-on flange is a type of flange that is slipped over the pipe and then secured with bolts. This type of flange is typically used for lower-pressure applications. Socket weld flange: A socket weld flange is a type of flange that has a socket that is welded to the pipe. This type of flange is typically used for smaller pipes. Lap joint flange: A lap joint flange is a type of flange that is joined to the pipe by overlapping the flanges and then welding them together. This type of flange is typically used for low-pressure applications. Blind flange: A blind flange is a type of flange that does not have a hole in the center. This type of flange is typically used to terminate a pipe. Stainless steel flanges are a versatile and reliable component that can be used in a wide variety of applications. They are available in a variety of types, sizes, and pressure ratings to meet the specific needs of each application.
A carbon steel flange is a type of flange that is made of carbon steel. Carbon steel is a type of steel that contains carbon as its primary alloying element. The carbon content in carbon steel can vary from 0.002% to 2.1%, but most carbon steels have a carbon content of between 0.2% and 0.8%. he following are some of the key technical specifications of carbon steel flanges: Pressure rating: The pressure rating of a flange is the maximum pressure that the flange can withstand without leaking. Class: The class of a flange is a measure of the flange's strength. The higher the class, the stronger the flange. Size: The size of a flange is the diameter of the flange's bore. Type: There are many different types of carbon steel flanges, including slip-on flanges, weld neck flanges, and socket weld flanges. Finish: The finish of a flange is the surface texture of the flange. The most common finishes for carbon steel flanges are smooth and rough. Carbon steel flanges are a versatile and reliable type of flange that can be used in a variety of applications. They are available in a wide range of sizes, classes, and types, so you can find the perfect flange for your needs. The technical specifications of a carbon steel flange vary depending on the standard that it is manufactured to. Some of the most common standards for carbon steel flanges include: ASTM A105N (SA105N): This standard specifies the requirements for carbon steel forgings for piping applications. ASTM A350 LF2: This standard specifies the requirements for low-alloy steel forgings for piping applications. ASTM A694: This standard specifies the requirements for flanges for high-pressure service. The following are some of the key technical specifications of carbon steel flanges: Material: Carbon steel Pressure rating: Varies depending on the standard Temperature rating: Varies depending on the material and the standard Face type: Plain, raised face, or ring joint Bore size: Varies Wall thickness: Varies Finish: Varies
Duplex and super duplex steel flanges are a type of stainless steel flange that has a two-phase microstructure consisting of ferrite and austenite. This gives them a number of advantages over other types of stainless steel flanges, including: Higher strength: Duplex and super duplex steel flanges have a higher yield strength than other types of stainless steel flanges, making them more resistant to deformation and cracking. Better corrosion resistance: Duplex and super duplex steel flanges have better corrosion resistance than other types of stainless steel flanges, making them suitable for use in harsh environments. Lower thermal expansion coefficient: Duplex and super duplex steel flanges have a lower thermal expansion coefficient than other types of stainless steel flanges, making them less susceptible to thermal stresses. â?¢ Duplex & Super Duplex Steel Flange : ASTM A182 / ASME SA182 F44, F 45, F51, F 53, F 55, F 60, F 61 The technical specifications of duplex and super duplex steel flanges vary depending on the grade of steel and the application. However, some common specifications include: Pressure rating: 150# to 2500# Temperature rating: -200�°C to 300�°C Dimensional tolerances: ANSI/ASME B16.5 Finish: Smooth, blasted, or electro polished
