Forged flanges are a type of flange that is commonly used in highpressure piping systems They are designed to be welded or bolted onto the end of a pipe and are typically made from forged steel Forged flanges are stronger and more durable than cast flanges making them a better choice for applications where high pressure andor temperature are present Benefits of Forged Flanges High strength and durability Better resistance to corrosion and wear Can withstand high pressure and temperature Available in a variety of sizes and materials Applications of Forged Flanges Piping systems Valves Pumps Heat exchangers Pressure vessels Types of Forged Flanges Slipon flanges Socket weld flanges Lap joint flanges Threaded flanges Blind flanges Spectacle blind flanges Selection of Forged Flanges When selecting forged flanges it is important to consider the following factors The pressure and temperature rating of the piping system The type of material that the flange is made from The size of the flange The type of connection that the flange will be used with Forged flanges are a critical component of many piping systems They provide a strong and reliable connection between pipes valves and other equipment Additional Information Forged flanges are typically made from carbon steel stainless steel or alloy steel Forged flanges are available in a variety of sizes from NPS 12 to NPS 24 Forged flanges are available in a variety of pressure ratings from PN 25 to PN 400 Forged flanges are available in a variety of connection types including slipon socket weld lap joint threaded and blind flanges
Carbon Steel Forged flanges are a type of flange that is commonly used in high-pressure piping systems. They are designed to be welded or bolted onto the end of a pipe and are typically made from forged steel. Forged flanges are stronger and more durable than cast flanges, making them a better choice for applications where high pressure and/or temperature are present. Benefits of CS Forged Flanges â?¢ High strength and durability â?¢ Better resistance to corrosion and wear â?¢ Can withstand high pressure and temperature â?¢ Available in a variety of sizes and materials Applications of CS Forged Flanges â?¢ Piping systems â?¢ Valves â?¢ Pumps â?¢ Heat exchangers â?¢ Pressure vessels Types of CS Forged Flanges â?¢ Slip-on flanges â?¢ Socket weld flanges â?¢ Lap joint flanges â?¢ Threaded flanges â?¢ Blind flanges â?¢ Spectacle blind flanges Selection of CS Forged Flanges When selecting forged flanges, it is important to consider the following factors: â?¢ The pressure and temperature rating of the piping system â?¢ The type of material that the flange is made from â?¢ The size of the flange â?¢ The type of connection that the flange will be used with CS Forged flanges are a critical component of many piping systems. They provide a strong and reliable connection between pipes, valves, and other equipment. Additional Information â?¢ Forged flanges are typically made from carbon steel, stainless steel, or alloy steel. â?¢ Forged flanges are available in a variety of sizes, from NPS 1/2 to NPS 24. â?¢ Forged flanges are available in a variety of pressure ratings, from PN 2.5 to PN 400. â?¢ Forged flanges are available in a variety of connection types, including slip-on, socket weld, lap joint, threaded, and blind flanges.
Orifice flanges are intended for use instead of standard pipe flanges when an orifice plate or flow nozzle must be installed Wide range of materials, including ASTM A 105N Carbon Steel ASTM A350 LF2, ASTM A182 F316L Stainless Steel Ratings from Class 300 lbs to 2500 lbs Sizes from 1" Nominal Bore
Flange Nut
Slurry pump accessories flange usually refers to several fixed holes opened around a disk-like metal body for connecting other components. Flanges are widely used in various mechanical equipment and pipeline connections. There are also many types of flanges. Next we talk about the standard system of flanges. my country's national standard system for steel pipe flanges GB. 1. Nominal pressure: 0.25Mpa~42.0Mpa Series 1: PN1.0, PN1.6, PN2.0, PN5.0, PN10.0, PN15.0, PN25.0, PN42 (main series) Series 2: PN0.25, PN0.6, PN2.5, PN4.0 Among them, the flange sizes of PN0.25, PN0.6, PN1.0, PN1.6, PN2.5, and PN4.0 belong to the European flange system represented by German flange, and the rest are American flange sizes. The American flange system represented by Lan. In the GB standard, the maximum nominal pressure level belonging to the European flange system is 4Mpa, and the maximum nominal pressure level belonging to the American flange system is 42Mpa. 2. Nominal diameter: 10mm~4000mm 3. Structural form of flange: Integral flange Unit flange threaded flange; Welding flange, butt welding flange; Flat welding flange with neck, socket welding flange with neck, plate flat welding flange: loose sleeve flange, loose sleeve neck flange with butt welding ring, loose sleeve plate flange with butt welding ring, loose sleeve flat welding ring Plate flange, plate over loose flange Flange cover (blind hole flange). 4. Flange sealing surface: flat surface, concave surface, concave and convex surface, tongue and groove surface, ring connection surface If you want to know more about slurry pumps, please call Pansto Pump Industry! Shijiazhuang Pansto Pump Industry is a manufacturer of slurry pumps in Shijiazhuang. It mainly designs, manufactures and sells slurry pumps and accessories. Mainly engaged in mud pumps, submersible pumps, foam pumps, desulfurization pumps and many other series. Single-stage slurry pump, slurry pump diagram, slurry pump curve, slurry pump specifications Slurry pump brand Warman slurry pump ZJ slurry pump ZGB slurry pump AH slurry pump SP slurry pump vertical liquid slurry pump
Welding Neck (WN) FlangeThe Welding Neck (WN) Flange is a flange designed to be welded to a pipe. The flange has a long tapered hub that is welded to the pipe to form a strong, leak-free connection. The flange also has a flat circular plate with bolt holes to secure the flange to another flange or piece of equipment. Description A Welding Neck (WN) Flange is a type of flange used in piping systems to connect pipes and equipment together. It is designed to be welded to the pipe or fitting and then bolted to another flange or piece of equipment. The WN flange has a long tapered neck that is welded to the pipe or fitting, and a flat face that extends out from the neck. The flat face of the flange provides a surface for the gasket to seal against, and the bolts are tightened to compress the gasket and create a leak-tight seal. The neck of the WN flange also provides reinforcement to the connection, which makes it suitable for use in high-pressure and high-temperature applications. The tapered design of the neck reduces stress concentrations and distributes the load evenly across the flange, which helps to prevent leaks and failures.
Threaded flanges are not suitable for pipelines with thin wall thicknesses because it is difficult to cut threads on such pipelines. Description Threaded flanges are designed to use threads to connect flanges to piping. Threaded flanges are used to connect pipes together in a safe, leak-free manner. They are often used in industrial pipelines where the flow of fluids or gases needs to be carefully controlled. Threaded flanges are designed to screw onto the end of a pipe, creating a tight seal that prevents leaks and ensures that the pipe operates at maximum efficiency. In addition to being used to connect pipes together, threaded flanges can also be used to connect other piping components such as valves, pumps and fittings. This makes them a versatile component that can be used in a variety of different piping configurations. Threaded flanges are typically made from materials such as carbon steel, stainless steel or alloy steel. The material used will depend on the specific requirements of the pipeline and its operating environment. The main advantage of threaded flanges is that they do not require welding to connect to the pipe. The ability to form joints without welding is a considerable advantage and is critical in certain locations and industries such as gas stations, hexane plants, flammable liquid stores, and other explosive areas (Ex zones). If welding is not required, the potential source of ignition has been removed. Another advantage is that threaded flange fittings are faster and easier to assemble and disassemble than welded flange fittings. Threaded flanges are not suitable for pipes with thin wall thicknesses, as it is more difficult to cut threads on such pipes. In some cases, sealing welds can be used to improve the integrity of the flange and reduce the potential for leakage. Adding a seal weld increases the integrity of the flange, but it also makes the joint more difficult to assemble and disassemble (because the weld makes it a permanent joint).
Solid Core Insulator Flange (Ductile Iron : 400/15)
Solid Core Insulator Flange (Ductile Iron : 400/15)
Solid Core Insulator Flange (Ductile Iron : 400/15)
All types of Flanges
Sae Flange 6000psi Code 62 Flange 90degree Iso 12151-3 Sae J516-87691 90 Elbow High Pressure Sae Hydraulic Flange Fitting 6000psi 87911 & 87912 Brand: Sinopulse Or Oem Material : Carbon Steel 45# Surface Treatment: Zinc Plating 90â° Elbow High Pressure Sae Hydraulic Flange Fitting 6000psi 87911 & 87912 Brand: Sinopulse Or Oem Material : Carbon Steel 45# Surface Treatment: Zinc Plating Application: 87691 Used For The Steel Wire Braided Hydraulic Hose 1sn 2sn , R1at, R2at 87692 Used For The Steel Wire Spiral Hydraulic Hose, 4sp. 4sh, R12, R13& R15
SAE Flange 6000PSI CODE 62 Flange 45 Degree ISO 12151-3 SAE J516-87641 45 Elbow High-pressure Sae Hydraulic Flange Fitting 6000PSI 87641 & 87642 Brand: SINOPULSE or OEM Material: Carbon steel 45# Surface treatment: Zinc plating 45 Elbow High Pressure SAE Hydraulic Flange Fitting 6000PSI 87611 & 87612 Brand: SINOPULSE or OEM Material: Carbon steel 45# Surface treatment: Zinc plating Application: 87641 used for the steel wire braided hydraulic hose 1SN 2SN , R1AT, R2AT 87642 used for the steel wire spiral hydraulic hose, 4SP. 4SH, R12, R13& R15
SAE FLANGE 6000PSI CODE 62 FLANGE STRAIGHT ISO 12151-3 SAE J516-87611 HIGH PRESSURE SAE HYDRAULIC FLANGE FITTING 6000PSI 87611 & 87612 Brand: SINOPULSE or OEM Material : Carbon steel 45# Surface treatment: Zinc plating HIGH PRESSURE SAE HYDRAULIC FLANGE FITTING 6000PSI 87611 & 87612 Brand: SINOPULSE or OEM Material : Carbon steel 45# Surface treatment: Zinc plating Application: 87611 used for the steel wire braided hydraulic hose 1SN 2SN , R1AT, R2AT 87612 used for the steel wire spiral hydraulic hose, 4SP. 4SH, R12, R13& R15
SAE FLANGE 3000PSI CODE 61 FLANGE 45DEGREE ISO 12151-3 SAE J516-87341 HIGH PRESSURE SAE HYDRAULIC FLANGE FITTING 3000PSI 87341 & 87342 Brand: SINOPULSE or OEM Material : Carbon steel 45# Surface treatment: Zinc plating HIGH PRESSURE SAE HYDRAULIC FLANGE FITTING 3000PSI 87341 & 87342 Brand: SINOPULSE or OEM Material : Carbon steel 45# Surface treatment: Zinc plating Application: 87341 used for the steel wire braided hydraulic hose 1SN 2SN , R1AT, R2AT 87342 used for the steel wire spiral hydraulic hose, 4SP. 4SH, R12, R13& R15
SAE FLANGE 3000PSI CODE 61 FLANGE 90DEGREE ISO 12151-3 SAE J516-87391 We are a professional manufacturer of Hydraulic fittings,and specialized in making Hydraulic hose fittings Hydraulic adapters, Hydraulic couplings, Hydraulic ferrule, Hydraulic falnge and so on. HIGH PRESSURE SAE HYDRAULIC FLANGE FITTING 3000PSI 87341 & 87342 Brand: SINOPULSE or OEM Material : Carbon steel 45# Surface treatment: Zinc plating Application: 87391 used for the steel wire braided hydraulic hose 1SN 2SN , R1AT, R2AT 87392 used for the steel wire spiral hydraulic hose, 4SP. 4SH, R12, R13& R15
SAE FLANGE 3000PSI CODE 61 FLANGE ISO 12151-3 SAE J516-87311 High pressure Hydraulic fitting flange 3000 psi Straight 87311 & 87312 Used for the steel wire braided hoses and steel wire spiral hoses SAE CODE 61 HIGH PRESSURE SAE HYDRAULIC FLANGE FITTING 3000PSI 87311 & 87312 Brand: SINOPULSE or OEM Material : Carbon steel 45# Surface treatment: Zinc plating Application: 87311 used for the steel wire braided hydraulic hose 1SN 2SN , R1AT, R2AT 87312 used for the steel wire spiral hydraulic hose, 4SP. 4SH, R12, R13& R15
Welding Neck (WN) FlangeThe Welding Neck (WN) Flange is a flange designed to be welded to a pipe. The flange has a long tapered hub that is welded to the pipe to form a strong, leak-free connection. The flange also has a flat circular plate with bolt holes to secure the flange to another flange or piece of equipment. Description A Welding Neck (WN) Flange is a type of flange used in piping systems to connect pipes and equipment together. It is designed to be welded to the pipe or fitting and then bolted to another flange or piece of equipment. The WN flange has a long tapered neck that is welded to the pipe or fitting, and a flat face that extends out from the neck. The flat face of the flange provides a surface for the gasket to seal against, and the bolts are tightened to compress the gasket and create a leak-tight seal. The neck of the WN flange also provides reinforcement to the connection, which makes it suitable for use in high-pressure and high-temperature applications. The tapered design of the neck reduces stress concentrations and distributes the load evenly across the flange, which helps to prevent leaks and failures.
Threaded flanges are not suitable for pipelines with thin wall thicknesses because it is difficult to cut threads on such pipelines. Description Threaded flanges are designed to use threads to connect flanges to piping. Threaded flanges are used to connect pipes together in a safe, leak-free manner. They are often used in industrial pipelines where the flow of fluids or gases needs to be carefully controlled. Threaded flanges are designed to screw onto the end of a pipe, creating a tight seal that prevents leaks and ensures that the pipe operates at maximum efficiency. In addition to being used to connect pipes together, threaded flanges can also be used to connect other piping components such as valves, pumps and fittings. This makes them a versatile component that can be used in a variety of different piping configurations. Threaded flanges are typically made from materials such as carbon steel, stainless steel or alloy steel. The material used will depend on the specific requirements of the pipeline and its operating environment. The main advantage of threaded flanges is that they do not require welding to connect to the pipe. The ability to form joints without welding is a considerable advantage and is critical in certain locations and industries such as gas stations, hexane plants, flammable liquid stores, and other explosive areas (Ex zones). If welding is not required, the potential source of ignition has been removed. Another advantage is that threaded flange fittings are faster and easier to assemble and disassemble than welded flange fittings. Threaded flanges are not suitable for pipes with thin wall thicknesses, as it is more difficult to cut threads on such pipes. In some cases, sealing welds can be used to improve the integrity of the flange and reduce the potential for leakage. Adding a seal weld increases the integrity of the flange, but it also makes the joint more difficult to assemble and disassemble (because the weld makes it a permanent joint).
Hilton Forge India: Your trusted partner for premium stainless steel flanges in India. We offer a diverse range of high-quality SS flanges in various grades, sizes, and shapes to meet your specific requirements. Our flanges are renowned for their exceptional corrosion resistance, superior strength, and versatility. With ready stock available and commitment to quality, we are your one-stop shop for all your flange needs.