Pipe fittings are available in various shapes, sizes and materials. Used to connect pipes of different lengths
and sizes, these pipe fittings and flanges should make the right connections. Pipe and pipe-fittings are
produced from a various materials for the transport of wide variety of solids and fluids. The wrong pipe
fitting can lead to many problems like:
1. leaks
2. unwanted flow restrictions and
3. extra cost
The proper pipe fittings and flanges let your equipment do the work that you intend it to do. The various
types of pipe fittings include plugs, 90 degree elbows, 45 degree elbows, flanges, nipples, concentric
reducers, eccentric reducers, straight tees, reducing tees, unions, pipe caps, full coupling, half coupling
and many more. You should select the right fittings for your application among the wide range of fitting
types and sizes offered.
• Common points to consider
The integrity of any fitting for proper functioning depends upon the following:
1. Selection of correct components or fittings appropriate for the application
2. Careful preparation and cleaning
3. Careful installation and assembly
4. Correct tightening and loading
• Selecting Your Pipe Fittings
The points to consider are as follows:
1. Determine Material Compatibility: Material selection plays a vital role in the proper working of fittings.
There are certain fluids which are not compatible with fitting material and these fittings cause leakage or
system damage. It is very essential to check the material compatibility of your fluid with any chemicals.
2. Check Temperature and Pressure Conditions: Appropriate temperature and pressure ratings are
needed for proper operating conditions. It is necessary to know whether the fittings are capable of
performing at their maximum temperature and maximum pressure ratings because most fittings cannot
perform both the task simultaneously.
• Some popular fitting types
1. Threaded Pipe Fittings:
These are the most commonly used fittings based on certain standards. For instance, there are threaded fittings of pipes in BSP (British Standard Pipe), NPT (National Pipe Taper), UNF (Unified Fine Thread) sizes
for permanent, high-pressure pipe connections.
2. Socket Weld Fittings:
A socket weld fitting is unthreaded, but has large sockets at both ends to accept a pipe end. The fitting is
then permanently welded to the pipe.
3. Butt Weld Fittings:
Buttweld (BW) fittings whose dimensions, dimensional tolerances et cetera are defined in the ASME B16.9 standards. Light-weight corrosion resistant fittings are made to MSS SP43.
4. Flanges:
A flange is a method of connecting pipes, valves, pumps and other equipment to form a piping system. It
also provides easy access for cleaning, inspection or modification.
• Pipe Thread Sizes
This is a very important consideration for any pipe fitting. All pipes were manufactured with specification of a standardized outside diameter (OD) and wall thickness which in turn implies that the nominal pipe size is approximately equal to the inside diameter (ID). Nowadays, various thread configurations are used. We give below an example of British Standard Pipe (BSP) fittings for connecting systems that use both NPT and BSP thread configurations. The table shows a comparison of these two thread styles.
Size | Threads per inch | |
NPT | BSP | |
| 1/8″ | 27 | 28 |
| 1/4″ | 18 | 19 |
| 3/8″ | 18 | 19 |
| 1/2″ | 14 | 14 |
| 3/4″ | 14 | 14 |
• To sum up: Selection criteria for buyers
1. Material
2. Pressure Ratings
3. Design and operation
4. Safety information
5. Temperaturepipe fittings and flanges, certain questions need to be answered for that particular pipe fitting and the manufacturer who is manufacturing that particular fitting. Some of these questions are as follows:
• Buyer’s assistance
Before purchasing
1. Can it handle pressure?
2. Can it handle high temperature?
3. Does it have proven long-term performance?
4. Are the joints or seals reliable?
5. Can it be fitted properly?
6. Does it have confidence of manufacturers?
7. Can it withstand outdoor storage and ultraviolet rays?
8. Can it resist punctures and abrasion?
9. Does it have widespread approval and acceptance from inspectors and engineers?
10. Does it have quality and value?The more the number of “YES”, the better is your product.
The more the number of “YES”, the better is your product.
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