| Carbon steel concentric reducer
Carbon steel concentric reducer is processed from two pipe sections of different caliber, in the middle of which the center axis of the two pipe sections coincide through special processing technology, thus realizing a concentric connection. Carbon steel concentric reducer has the advantages of simple structure, easy installation, good sealing, etc. It is widely used in the piping system of petroleum, chemical, natural gas and other industries. In addition, compared with other materials of pipeline connectors, carbon steel concentric reducers have lower cost and are easier to maintain and replace.
| Advantage
Strong practicality
Welded Reducer Fittings are practical and can be connected to pipes of different diameters, making the pipe connection more flexible. Stainless steel and carbon steel reducers have good corrosion resistance and can be used in harsh environments. It is not easy to be deformed and damaged under high temperature working conditions. With excellent sealing performance, welded reducers can effectively prevent water leakage and seepage.
Strict material requirements
When selecting materials for stamping processes, it is crucial to consider their surface quality. Smooth and flat materials that are free from delamination, mechanical damage, rust spots, and other attachments are ideal. Stainless steel and carbon steel are excellent choices due to their good surface quality, as they are less prone to cracking or scratching the mold during stamping. Additionally, the material's plasticity and flexural strength ratio play a vital role in enhancing stamping deformation and workpiece quality. Therefore, it is essential to opt for materials with good plasticity and a small flexural strength ratio to achieve optimal results in the stamping process.
Exquisite craftsmanship
Reducing head is a chemical fitting used in press molding. The process involves placing a pipe blank with the same diameter as the size head into a forming mold and pressing it along the axial direction of the pipe blank. This causes the metal to move along the mold cavity and shrink to form the desired shape. The size of the reducer determines whether it requires one-time pressing and molding or multiple pressing and molding. Steel pipe and steel plate press molding technologies can both be used to produce size heads of specific specifications. Both concentric and eccentric reducers are available to fulfill the diverse requirements of engineering projects.
| Size
ASME/ANSI B 16.9 | ||
Butt-Welding Concentric Reducers | ||
Norminal Pipe Size DN(inch) | Outside Diameterat Bevel | End to End |
D1xD2 | L | |
3/4x1/2 | 26.7×21.3 | 38.1 |
3/4x3/8 | 26.7×17.1 | |
1×3/4 | 33.4×26.7 | 50.8 |
1×1/2 | 33.4×21.3 | |
11/4x1 | 42.2×33.4 | 50.8 |
11/4x3/4 | 42.2×26.7 | |
11/4x1/2 | 42.2×21.3 | |
11/2x11/4 | 48.3×42.2 | 63.5 |
11/2x1 | 48.3×33.4 | |
11/2x3/4 | 48.3×26.7 | |
11/2x1/2 | 48.3×21.3 | |
2×11/2 | 60.3×48.3 | 76.2 |
2x11/4 | 60.3×42.2 | |
2×1 | 60.3×33.4 | |
2x3/4 | 60.3×26.7 | |
21/2x2 | 73.0×60.3 | 88.9 |
21/2x11/2 | 73.0×48.3 | |
21/2x11/4 | 73.0×42.2 | |
21/2x1 | 73.0×33.4 | |
3×21/2 | 88.9×73.0 | 88.9 |
3×2 | 88.9×60.3 | |
3×11/2 | 88.9x48.3 | |
3×11/4 | 88.9x42.2 | |
31/2X3 | 101.6×88.9 | 101.6 |
31/2x21/2 | 101.6×73.0 | |
31/2×2 | 101.6x60.3 | |
31/2x11/2 | 101.6×48.3 | |
31/2x11/4 | 101.6x42.2 | |
4×31/2 | 114.3×101.6 | 101.6 |
4×3 | 114.3×88.9 | |
4×21/2 | 114.3x73.0 | |
4×2 | 114.3x60.3 | |
4×11/2 | 114.3x48.3 | |
5×4 | 141.3x114.3 | 127.0 |
5×31/2 | 141.3×101.6 | |
5×3 | 141.3×88.9 | |
5×21/2 | 141.3×73.0 | |
5×2 | 141.3x60.3 | |
6×5 | 168.3×141.3 | 139.7 |
6×4 | 168.3×114.3 | |
6×31/2 | 168.3×101.6 | |
6×2 | 168.3×88.9 | |
6×21/2 | 168.3×73.0 | |
8×6 | 219.1x168.3 | 152.4 |
8×5 | 219.1x141.3 | |
8×4 | 219.1x114.3 |
| Reducer parameter table
| Carbon steel concentric reducer
Carbon steel concentric reducer is processed from two pipe sections of different caliber, in the middle of which the center axis of the two pipe sections coincide through special processing technology, thus realizing a concentric connection. Carbon steel concentric reducer has the advantages of simple structure, easy installation, good sealing, etc. It is widely used in the piping system of petroleum, chemical, natural gas and other industries. In addition, compared with other materials of pipeline connectors, carbon steel concentric reducers have lower cost and are easier to maintain and replace.
| Advantage
Strong practicality
Welded Reducer Fittings are practical and can be connected to pipes of different diameters, making the pipe connection more flexible. Stainless steel and carbon steel reducers have good corrosion resistance and can be used in harsh environments. It is not easy to be deformed and damaged under high temperature working conditions. With excellent sealing performance, welded reducers can effectively prevent water leakage and seepage.
Strict material requirements
When selecting materials for stamping processes, it is crucial to consider their surface quality. Smooth and flat materials that are free from delamination, mechanical damage, rust spots, and other attachments are ideal. Stainless steel and carbon steel are excellent choices due to their good surface quality, as they are less prone to cracking or scratching the mold during stamping. Additionally, the material's plasticity and flexural strength ratio play a vital role in enhancing stamping deformation and workpiece quality. Therefore, it is essential to opt for materials with good plasticity and a small flexural strength ratio to achieve optimal results in the stamping process.
Exquisite craftsmanship
Reducing head is a chemical fitting used in press molding. The process involves placing a pipe blank with the same diameter as the size head into a forming mold and pressing it along the axial direction of the pipe blank. This causes the metal to move along the mold cavity and shrink to form the desired shape. The size of the reducer determines whether it requires one-time pressing and molding or multiple pressing and molding. Steel pipe and steel plate press molding technologies can both be used to produce size heads of specific specifications. Both concentric and eccentric reducers are available to fulfill the diverse requirements of engineering projects.
| Size
ASME/ANSI B 16.9 | ||
Butt-Welding Concentric Reducers | ||
Norminal Pipe Size DN(inch) | Outside Diameterat Bevel | End to End |
D1xD2 | L | |
3/4x1/2 | 26.7×21.3 | 38.1 |
3/4x3/8 | 26.7×17.1 | |
1×3/4 | 33.4×26.7 | 50.8 |
1×1/2 | 33.4×21.3 | |
11/4x1 | 42.2×33.4 | 50.8 |
11/4x3/4 | 42.2×26.7 | |
11/4x1/2 | 42.2×21.3 | |
11/2x11/4 | 48.3×42.2 | 63.5 |
11/2x1 | 48.3×33.4 | |
11/2x3/4 | 48.3×26.7 | |
11/2x1/2 | 48.3×21.3 | |
2×11/2 | 60.3×48.3 | 76.2 |
2x11/4 | 60.3×42.2 | |
2×1 | 60.3×33.4 | |
2x3/4 | 60.3×26.7 | |
21/2x2 | 73.0×60.3 | 88.9 |
21/2x11/2 | 73.0×48.3 | |
21/2x11/4 | 73.0×42.2 | |
21/2x1 | 73.0×33.4 | |
3×21/2 | 88.9×73.0 | 88.9 |
3×2 | 88.9×60.3 | |
3×11/2 | 88.9x48.3 | |
3×11/4 | 88.9x42.2 | |
31/2X3 | 101.6×88.9 | 101.6 |
31/2x21/2 | 101.6×73.0 | |
31/2×2 | 101.6x60.3 | |
31/2x11/2 | 101.6×48.3 | |
31/2x11/4 | 101.6x42.2 | |
4×31/2 | 114.3×101.6 | 101.6 |
4×3 | 114.3×88.9 | |
4×21/2 | 114.3x73.0 | |
4×2 | 114.3x60.3 | |
4×11/2 | 114.3x48.3 | |
5×4 | 141.3x114.3 | 127.0 |
5×31/2 | 141.3×101.6 | |
5×3 | 141.3×88.9 | |
5×21/2 | 141.3×73.0 | |
5×2 | 141.3x60.3 | |
6×5 | 168.3×141.3 | 139.7 |
6×4 | 168.3×114.3 | |
6×31/2 | 168.3×101.6 | |
6×2 | 168.3×88.9 | |
6×21/2 | 168.3×73.0 | |
8×6 | 219.1x168.3 | 152.4 |
8×5 | 219.1x141.3 | |
8×4 | 219.1x114.3 |
| Reducer parameter table
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