The difference between DIN 2616 Butt Weld Carbon Steel Pipe Fitting Concentric Reducer and DIN 2616 Butt Weld Carbon Steel Pipe Fitting Eccentric Reducer is mainly reflected in the following aspects:
Shape differences:
The centers of circles of DIN 2616 Butt Weld Carbon Steel Pipe Fitting Concentric Reducer are on a straight line, while the centers of circles of DIN 2616 Butt Weld Carbon Steel Pipe Fitting Eccentric Reducers are not on the same straight line.
scenes to be used:
DIN 2616 Butt Weld Carbon Steel Pipe Fitting Concentric Reducers are mainly used in fluid delivery pipelines because they facilitate the flow of fluids and have less interference with the flow pattern of the fluid during diameter reduction.
DIN 2616 Butt Weld Carbon Steel Pipe Fitting Eccentric Reducers are mostly used for horizontally installed liquid pipelines, especially when pipes of different diameters need to be connected to change the flow rate.
Function:
The main purpose of the DIN 2616 Butt Weld Carbon Steel Pipe Fitting Concentric Reducer is to change the diameter of the pipe and does not involve other special functions.
In addition to reducing the diameter, DIN 2616 Butt Weld Carbon Steel Pipe Fitting Eccentric Reducers may also have specific functions, such as preventing gas accumulation (top flat eccentricity) or preventing liquid deposition (bottom flat eccentricity).
Manufacturing process:
The forming process of DIN 2616 Butt Weld Carbon Steel Pipe Fitting Concentric Reducers includes reducing diameter pressing, expanding diameter pressing or reducing diameter plus expanding diameter pressing. For certain specifications of reducers, stamping may also be used.
The manufacturing process for DIN 2616 Butt Weld Carbon Steel Pipe Fitting Eccentric Reducers may include a flat-top or flat-bottom design, depending on their needs in a specific application.
In summary, although DIN 2616 Butt Weld Carbon Steel Pipe Fitting Concentric Reducers and DIN 2616 Butt Weld Carbon Steel Pipe Fitting Eccentric Reducers look similar in appearance, there are obvious differences in design and use, which are mainly optimized for different fluid conditions and applications.