Pipe Adapter Fittings
Pipe Adapter fittings are designed as alternative connection to extend or terminate a piping running system. It prevents leakage between connections for system process, power instrumentation and general industrial applications. The pipe adapter fittings are manufactured to the highest quality standards and are available in different range of sizes, material, connection and configurations.
Adapters are available in various connections with female and male end connection. It is mainly applicable for pipes with odd sizes on both end or we called it big jumped size. Example one end 1/2” male and another end 1” female end connection. An adapter with one end 1/2” female and another end 1” male is customized to ensure flow transferred. |
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Size |
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Material |
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Working Pressure |
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Connection Thread Type |
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CATALOGUE :
What are pipe adapter fittings
1. What is an pipe adapter fitting?
The pipe adapter fittings can be machined and customized as per request in order to provide instant solution to transfer flow from one direction to another. The adapter is an interface for connecting both end connection without direct compatibility. The market well-known brand is Parker, United States.
The benefit of using adapter fittings are such as below:
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2. What is the difference between a coupling and an adapter?
A socket or coupling is a straight connector that enables equal flow rate in one direction. If both pipes sizes are not the same, a reducing coupling is used to reduce flow by joining a larger size pipe to a smaller size. It usually comes in both female end and connects with pipe in male connection.
While adapter comes in different size and connection. It can be customized according to system size and connection required. Standard hex bush fitting threaded end connection male size bigger than female size. Adapter can have female which is internal thread bigger than male external thread or equal size for both male and female thread. |
3. How do you make an pipe adapter fitting?
Pipe Adapter Fittings are made from forging from bar stock in stainless steel, SS316 and carbon steel material. Straight adapters are manufactured from ASTM applicable cold down bars whereas non-straight fittings like 90-degree elbow or 3-way tee are machined after close grain forging. They are designed to be used for instrumentation connections and process control between tubes and pipes size.
The pipe adapter fitting body material has its own running temperature range. For example, pipe adapter fitting body of stainless steel SS316 material is suitable to work at a maximum temperature of 537° (1000°F). Please refer details for brass and carbon steel material as per below:
Pipe Adapter Fittings are made from forging from bar stock in stainless steel, SS316 and carbon steel material. Straight adapters are manufactured from ASTM applicable cold down bars whereas non-straight fittings like 90-degree elbow or 3-way tee are machined after close grain forging. They are designed to be used for instrumentation connections and process control between tubes and pipes size.
The pipe adapter fitting body material has its own running temperature range. For example, pipe adapter fitting body of stainless steel SS316 material is suitable to work at a maximum temperature of 537° (1000°F). Please refer details for brass and carbon steel material as per below:
Material |
Bar Stock |
Forgings |
Maximum Temperature Ratings °C (°F) |
Stainless Steel SS316 |
ASTM A479 Type 316 ASTM A276 Type 316 |
ASTM A182 F316 |
537 (1000) |
Carbon Steel |
ASTM A108 JIS G4051 S20C-S45C |
ASTM A105 JIS G3201 SF440A |
204 (400) |
Brass |
ASTM B16 C36000 JIS H3250 C3604 |
ASTM B283 C37700 JIS H3250 C3771 |
190 (375) |
Table 1: Fitting production process
4. How do I connect two pipes to the same size?
Adapter is the fitting that are suitable to connect two pipes together. These fittings are available in sizes ranging from 1/8” to 2” in threaded connection of NPT and BSPP. The adapter type includes various thread of male by female adapter, hex nipple and plug.
The fitting has a pressure rating which can withstand up to 420 bar. Pressure ratings of each adapter are determined under ambient temperature of 37 °C (100°F). However, the pressure rating is subjected to flow rate, material of O-ring seal and temperature de-rating factor. |
Components |
Material |
Temperature Min ⁰C (⁰F) |
Temperature Max ⁰C (⁰F) |
SAE O-rings |
FKM |
-28 (-20) |
204(400) |
Bonded Seal Gasket |
NBR |
-25 (-13) |
110(230) |
Bonded Seal Gasket |
FKM |
-15 (5) |
204(400) |
Copper Gasket |
COPPER |
-198 (-325) |
204(400) |
Table 2: Gasket and O-ring material
Temperature (⁰C) |
38 |
93 |
149 |
204 |
260 |
316 |
371 |
427 |
482 |
537 |
Temperature (⁰F) |
100 |
200 |
300 |
400 |
500 |
600 |
700 |
800 |
900 |
1000 |
Stainless Steel 316 |
1.000 |
1.000 |
1.000 |
0.960 |
- |
- |
- |
- |
- |
- |
Carbon Steel |
1.000 |
0.940 |
0.900 |
0.860 |
- |
- |
- |
- |
- |
- |
Brass |
1.000 |
0.780 |
0.690 |
0.130 |
- |
- |
- |
- |
- |
- |
Carbon Steel |
1.000 |
0.940 |
0.900 |
0.860 |
- |
- |
- |
- |
- |
- |
Table 3: Temperature de-rating factor
Let’s take an example, stainless steel adapter fitting A can withstand pressure 420 bars in normal system operation. When fitting is run in an environment temperature of 400⁰C, the fitting pressure will drop to 331 bars, which is 420 bar x 0.79(de-rating factor). Adapter material in carbon steel and brass are not suitable to apply in temperature rating of 400⁰C. It is only applicable for maximum a temperature of 204⁰C.
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