PBH series section bending machine can can provide pipe bending for a range of pipe sizes and materials. Use the table below for more information about pipe dimensions, NPS, schedules, and weights.

Depending upon your unique project requirements, Profile Bending angle bending may be performed on a variety of materials, including carbon steel, stainless steel, aluminum, titanium, and copper.

## What Is Nominal Pipe Size Or NPS?

NPS, or nominal pipe size, is the North American set of size standards for pipes that are used for temperatures and pressures of all ranges. The nominal pipe size identifies the size of the diameter of the pipe’s hole with a non-dimensional number. Using the NPS, a pipe is identified by its diameter and then with another non-dimensional number for the pipe’s wall thickness. This non-dimensional number is referred to as the pipe’s schedule. Based on the nominal pipe size and the schedule of the pipe, the pipe’s thickness can be obtained from conversion tables like the one below.

## What Is A Pipe Schedule?

For pipes of all sizes, the outer diameter remains fairly consistent. Variation in wall thickness affects the ID, or inner diameters, of pipes. Schedule numbers for pipes reference the thickness of the wall on different size pipes. As the schedule number increases, the thicker the wall of the pipe becomes. The schedule number on a pipe increases as the pipe’s wall size increases, and the wall thickness changes based on a Nominal Pipe Size chart. A basic conversion chart can explain the relationship between schedules, pipe sizes, and wall thicknesses. The most common pipe schedules are schedule 40 and schedule 80.

Schedule 40 | Schedule 80 | ||||
---|---|---|---|---|---|

Nominal Pipe Size | Outside Diameter | Wall Thick. | Wt. per Ft. | Wall Thick. | Weight Per Ft. |

1/8 | .405 | .068 | .245 | .095 | .315 |

1/4 | .540 | .088 | .425 | .119 | .535 |

3/8 | .675 | .091 | .568 | .126 | .739 |

1/2 | .840 | .109 | .851 | .147 | 1.088 |

3/4 | 1.050 | .113 | 1.131 | .154 | 1.474 |

1 | 1.315 | .133 | 1.679 | .179 | 2.172 |

1-1/4 | 1.660 | .140 | 2.273 | .191 | 2.997 |

1-1/2 | 1.900 | .145 | 2.718 | .200 | 3.631 |

2 | 2.375 | .154 | 3.653 | .218 | 5.022 |

2-1/2 | 2.875 | .203 | 5.793 | .275 | 7.661 |

3 | 3.500 | .216 | 7.576 | .300 | 10.250 |

3-1/2 | 4.000 | .226 | 9.109 | .318 | 12.510 |

4 | 4.500 | .237 | 10.790 | .337 | 14.980 |

5 | 5.563 | .258 | 14.620 | .375 | 20.780 |

6 | 6.625 | .280 | 18.970 | .432 | 28.570 |

8 | 8.625 | .322 | 28.550 | .500 | 43.390 |

10 | 10.750 | .365 | 40.480 | .500 | 54.740 |

12 | 12.750 | .375 | 49.560 | .500 | 65.420 |

Nominal Pipe Size (NPS) is a North American set of standard sizes for pipes used for high or low pressures and temperatures. Nominal pipe size refers to only the outside diameter (OD) of a pipe making it somewhat vague. For example, when we say pipe size is 2 NPS, it refers to all the pipes having 2.375-inch (or 60.3 mm) as outside diameter irrespective of wall thickness and thus the inside diameter. Specific pipe is identified by pipe diameter and another non-dimensional number for wall thickness referred to as the Schedule (SCH). Pipe schedule sets the pipe wall thickness. Increasing the wall thickness of the pipe increases the mechanical strength of the pipe, allowing it to handle higher design pressures.

The terms Nominal Bore (NB) and Nominal Diameter (DN) are also frequently used interchangeably with Nominal Pipe Size (NPS). Nominal Bore (NB) is European Designation equivalent to NPS. For NPS 5 and larger, the Nominal Diameter (DN) is equal to the NPS multiplied by 25.

Initially there are only three pipe wall thicknesses in use –

Standard (STD)

Extra Strong (XS)

Double Extra Strong (XXS)

However with the advancement of industrial age and use of pipes in varying pressure and temperature conditions, these three sizes did not fit all applications. There have been many revisions and additions to the tables of pipe sizes based on industry use and on standards from API, ASTM, and others. Today we have a range of wall thicknesses, namely:

SCH 5, 5S, 10, 10S, 20, 30, 40, 40S, 60, 80, 80S, 100, 120, 140, 160, STD, XS AND XXS.Stainless steel pipes, due to less risk of failure due to non-corrosive property, permitted the use of pipes with thinner wall thickness. Initially thinner pipe schedules 5S and 10S had been created and afterwards other “S” sizes followed later. Stainless steel pipes are most often available in standard weight sizes (noted by the S designation; for example, Sch 10S). However stainless steel pipe can also be available in other schedules. Due to their thin walls, the smaller “S” sizes can not be threaded together according to ASME code, but must be fusion welded.

In new schedule system,

Schedule Standard (STD) is identical to SCH 40S, and 40S is identical to 40 for NPS 1/8 to NPS 10, inclusive.

Schedule Extra Strong (XS) is identical to SCH 80S, and 80S is identical to 80 for NPS 1/8 to NPS 8, inclusive.

Schedule Double Extra Strong (XXS) wall is thicker than schedule 160 from NPS 1/8 in to NPS 6 in inclusive, and schedule 160 is thicker than XXS wall for NPS 8 in and larger.

Nominal Pipe Size and Schedule collectively sets the pipe outside diameter (OD) and the wall thickness (and hence the internal diameter (ID) is automatically fixed). For example, NPS 14 Sch 40 has an OD of 14 inches (360 mm) and a wall thickness of 0.437 inches (11.1 mm).

However the Nominal Pipe Size (NPS) and Outside Diameter (OD) values are not always equal, which can create confusion.

For NPS ⅛ to 12 – The NPS and OD values are different. For example, the OD of an NPS 12 pipe is actually 12.75 inches (324 mm). To find the actual OD for each NPS value, refer to the reference tables which are based on ASME standards B36.10M and B36.19M.

For NPS 14 and above – The NPS and OD values are equal. In other words, an NPS 14 pipe is actually 14 inches (360 mm) OD.

Few general rules regarding nominal pipe size (NPS) and schedule,

For a given NPS, the OD stays fixed and the wall thickness increases with increase in schedule number.

For a given schedule number, the OD increases with NPS while the wall thickness either stays constant or increases.

Using equations and rules in ASME B31.3 Process Piping, it can be shown that pressure rating decreases with increasing NPS and constant schedule.

Calculation of Pipe Internal Diameter (ID)

For process engineers, the most important information is the pipe Internal Diameter (ID), as this is used inline sizing calculations. As discussed above, for a given Nominal Pipe Size (NPS), the pipe Outside Diameter (OD) remains constant. As the pipe schedule changes, the ID of the pipe changes.

The ID of the pipe can be easily calculated, as long as the pipe NPS and schedule are known. The pipe ID is givenby the pipe NPS minus double the pipe wall thickness (which can be obtained from the pipe schedule).

For example, for a 12 NPS (DN 300 mm) pipe, schedule 40, the OD and wall thickness are respectively 12.75 inches (324 mm) and 0.406 inches (10.4 mm). Thus:

Pipe ID = 12.75 inches – 2 x 0.406 inches = 11.94 inches, or

Pipe ID = 324 mm – 2 x 10.4 mm = 303.2 mm.

It is worth bearing in mind that wall thicknesses come within a specified tolerance, depending on the engineering standard used. A typical wall thickness tolerance is 12.5%. This means that the actual internal pipe diameter may vary slightly from that quoted above.