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| Quantity: | |
|---|---|
| Carbon steel eccentric reducer
Carbon steel eccentric reducers are widely used in various industries due to their unique design. These reducers have different diameter sizes between the pipe openings, and the pipe center-line is not in the same straight line. The process of forming carbon steel eccentric reducers involves shrinking the diameter of the large end of the reducer pipe billet into a forming mold. This is achieved by applying axial pressure to the billet, causing the metal to move along the mold cavity and undergo shrinkage molding.
One of the key advantages of carbon steel eccentric reducers is their exceptional strength. They possess significantly higher strength compared to an equivalent amount of carbon steel. Additionally, these reducers exhibit good toughness and plasticity, allowing them to withstand high-pressure environments. Moreover, their weldability and corrosion resistance are commendable, making them suitable for various applications.
In conclusion, carbon steel eccentric reducers offer a reliable and efficient solution for connecting pipes with different diameters. Their unique design and exceptional properties make them an ideal choice for industries that require strength, durability, and resistance to corrosion.
| Advantage
Rigorous material requirements
In stamping processes, the surface quality of materials is crucial. Smooth, flat, and attachment-free materials are ideal, with stainless steel and carbon steel being highly recommended. These materials have excellent surface quality, reducing the risk of cracking or scratching the mold during stamping. However, surface quality is not the only factor to consider. The material's plasticity and flexural strength ratio also play a significant role. These properties enhance stamping deformation and ensure the production of high-quality workpieces. Therefore, it is essential to select materials with good plasticity and a small flexural strength ratio to achieve optimal results in the stamping process.
Superbly craftsmanship
The reducing head is a chemical fitting commonly used in press molding. It involves placing a pipe blank with the same diameter as the size head into a forming mold, and then reducing and forming the size head. By pressing the metal along the axial direction of the pipe blank, it moves along the mold cavity and shrinks into the desired shape. The production of reducers can be achieved through single or multiple pressing and molding methods, depending on the size. Both steel pipe and steel plate press molding technologies can be utilized to produce size heads of specific specifications. Additionally, there are both concentric and eccentric reducers available to cater to the diverse requirements of engineering projects.
Strong practicality
Welded Reducer Fittings are widely used in various industries due to their utility and versatility. These fittings provide a convenient solution for connecting pipes of different diameters, allowing greater flexibility in pipe connections. Stainless steel and carbon steel reducers are particularly popular for their excellent corrosion resistance, making them suitable for use in harsh and demanding environments. In addition, these reducers can withstand high-temperature operating conditions without deformation or damage. In addition, their excellent sealing properties effectively prevent leakage and seepage, providing a reliable and secure connection. In short, welded reducers are an important part of ensuring the efficiency and durability of your piping system.
| Size
| ASME/ANSI B 16.9 | ||
| Butt-Welding Concentric Reducers | ||
| Norminal Pipe Size DN (inch) | Outside Diameter at 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 eccentric reducer
Carbon steel eccentric reducers are widely used in various industries due to their unique design. These reducers have different diameter sizes between the pipe openings, and the pipe center-line is not in the same straight line. The process of forming carbon steel eccentric reducers involves shrinking the diameter of the large end of the reducer pipe billet into a forming mold. This is achieved by applying axial pressure to the billet, causing the metal to move along the mold cavity and undergo shrinkage molding.
One of the key advantages of carbon steel eccentric reducers is their exceptional strength. They possess significantly higher strength compared to an equivalent amount of carbon steel. Additionally, these reducers exhibit good toughness and plasticity, allowing them to withstand high-pressure environments. Moreover, their weldability and corrosion resistance are commendable, making them suitable for various applications.
In conclusion, carbon steel eccentric reducers offer a reliable and efficient solution for connecting pipes with different diameters. Their unique design and exceptional properties make them an ideal choice for industries that require strength, durability, and resistance to corrosion.
| Advantage
Rigorous material requirements
In stamping processes, the surface quality of materials is crucial. Smooth, flat, and attachment-free materials are ideal, with stainless steel and carbon steel being highly recommended. These materials have excellent surface quality, reducing the risk of cracking or scratching the mold during stamping. However, surface quality is not the only factor to consider. The material's plasticity and flexural strength ratio also play a significant role. These properties enhance stamping deformation and ensure the production of high-quality workpieces. Therefore, it is essential to select materials with good plasticity and a small flexural strength ratio to achieve optimal results in the stamping process.
Superbly craftsmanship
The reducing head is a chemical fitting commonly used in press molding. It involves placing a pipe blank with the same diameter as the size head into a forming mold, and then reducing and forming the size head. By pressing the metal along the axial direction of the pipe blank, it moves along the mold cavity and shrinks into the desired shape. The production of reducers can be achieved through single or multiple pressing and molding methods, depending on the size. Both steel pipe and steel plate press molding technologies can be utilized to produce size heads of specific specifications. Additionally, there are both concentric and eccentric reducers available to cater to the diverse requirements of engineering projects.
Strong practicality
Welded Reducer Fittings are widely used in various industries due to their utility and versatility. These fittings provide a convenient solution for connecting pipes of different diameters, allowing greater flexibility in pipe connections. Stainless steel and carbon steel reducers are particularly popular for their excellent corrosion resistance, making them suitable for use in harsh and demanding environments. In addition, these reducers can withstand high-temperature operating conditions without deformation or damage. In addition, their excellent sealing properties effectively prevent leakage and seepage, providing a reliable and secure connection. In short, welded reducers are an important part of ensuring the efficiency and durability of your piping system.
| Size
| ASME/ANSI B 16.9 | ||
| Butt-Welding Concentric Reducers | ||
| Norminal Pipe Size DN (inch) | Outside Diameter at 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
