National pipe thread explained

American National Standard Pipe Thread standards, often called national pipe thread standards for short, are United States national technical standards for screw threads used on threaded pipes and pipe fittings. They include both tapered and straight thread series for various purposes, including rigidity, pressure-tight sealing, or both. The types are named with a full name and an abbreviation, such as NPT, NPS, NPTF, or NPSC.

MIP is an abbreviation for male iron pipe, and FIP is an abbreviation for female iron pipe.[1]

Outside North America, some US pipe thread sizes are widely used, as well as many British Standard Pipe threads and ISO 7–1, 7–2, 228–1, and 228-2 threads.

Types

The various types are each named with an abbreviation and a full name, as follows:

AbbreviationShorthand expansionFull nameComment
NPT National pipe taper American National Standard Taper Pipe Thread Tapered and needs thread sealant; for connections in nearly every type of service
NPS National pipe straight American National Standard Straight Pipe Thread For rigidity; sealable with o-ring or gasket; sometimes male straight is mated with female tapered for low-pressure sealing (need to verify)
NPSC National pipe straight–coupling American National Standard Straight Pipe Thread for Couplings For general couplings
NPSF National pipe straight–fuel and oil Dryseal USA (American) Standard Fuel Internal Straight Pipe Thread Internal only, straight
NPSH National pipe straight–hose American National Standard Straight Pipe Thread for Hose Couplings For hose couplings
NPSI National pipe straight–intermediate Dryseal USA (American) Standard Intermediate Internal Straight Pipe Thread Similar to NPSF but slightly larger; internal only, straight
NPSL National pipe straight–locknut American National Standard Straight Pipe Thread for Loose-fitting Mechanical Joints with Locknuts For use with locknuts
NPSM National pipe straight–mechanical American National Standard Straight Pipe Thread for Free-fitting Mechanical Joints For various rigid mechanical uses
NPTF National pipe taper–fuel and oil Dryseal USA (American) Standard Taper Pipe Thread For dryseal connections in nearly every type of service, especially fuel connections
NPTR National pipe taper–railing American National Standard Taper Pipe Thread for Railing Joints For railings
PTF-SAE SHORT Pipe taper, fuel, SAE, short Dryseal SAE Short Taper Pipe Thread Named after SAE International; similar to NPTF but one turn shorter

Uses

Threaded pipes can provide an effective seal for pipes transporting liquids, gases, steam, and hydraulic fluid. These threads are now used in materials other than steel and brass, including PTFE, PVC, nylon, bronze, and cast iron.

The taper on NPT threads allows them to form a seal when torqued as the flanks of the threads compress against each other, as opposed to parallel/straight thread fittings or compression fittings in which the threads merely hold the pieces together and do not provide a seal. The various types of pipe threads are designed for use both with or without thread sealants, as particular applications demand. The sealants, where used, are typically thread seal tape thread sealant or a thread seal paste pipe dope (sometimes similar in composition to plumber's putty).

Because the thread body is tapered (0.75abbr=on1abbr=on), a larger diameter keeps compressing into a smaller diameter and finally forms a seal (no clearance remains between the crests and roots of the threads because of the taper). This means that NPT fittings should be burr-free and lubricated using a lubricant like lubricating paste or thread seal tape. The use of tape also helps to limit corrosion on the threads, which otherwise can make future disassembly nearly impossible.

Commonly used sizes are,,,,, 1,,, 2,, 3,, 4, 5, and 6 inch, as pipe and fittings by most US suppliers. Sizes smaller than  inch are occasionally used for compressed air, while sizes larger than 6 inches are often joined by other methods.

Specifications

NPT is defined by ANSI/ASME standard B1.20.1.[2]

The taper rate for all NPT threads is 1 inch of diameter in 16 inches of length (NaNdisp=or1disp=or) measured by the change of diameter (of the pipe thread) over distance of thread. The half-angle (between the taper surface and the axis of the pipe) is arctan ≈ 1.7899° ≈ 1° 47′.

The standard for Nominal Pipe Size (often abbreviated NPS, which should not be confused with the abbreviation NPS for the straight thread form standard) is loosely related to the inside diameter of Schedule 40 series of sizes. Because of the pipe wall thickness of Schedule pipe, the actual diameter of the NPT threads is larger than the Nominal Pipe Size diameter, and considerably so for small sizes. Pipe of a given size in a different Schedule than Schedule 40 provides a different wall thickness while maintaining the same outside diameter and thread profile as Schedule 40. Thus the inside diameter of a given size of Schedule pipe differs from the Nominal Pipe Size, while outside diameters for a given nominal Schedule size are the same between Schedules.

Thread form

National Pipe Thread series have the same 60° included angle as Sellers thread. On the other hand, for sealing capability, tapered (pressure-tight) threads have crest and root shapes that differ from Sellers. For example, the NPT has a crest width of 0.038 to 0.062 pitch, which is sharper than the 0.125 pitch of Sellers.[2]

National pipe taper fuel (NPTF)

National Pipe Taper Fuel (NPTF, also called Dryseal American National Standard Taper Pipe Thread, defined by ASME B1.20.3) is designed to provide a more leak-free seal without the use of PTFE tape (often referred to by the popular brand name "Teflon") or another sealant compound. NPTF threads have the same basic shape but with crest and root heights adjusted for an interference fit, eliminating the spiral leakage path.

Standard sizes

American Society of Mechanical Engineers National Pipe Thread Taper (NPT)[3]
Nominal
pipe size
Thread
density
Thread pitch PHand-tight engagement[4] Effective threadOverall
length L4
Actual outside
diameter D
Tap drill
Length L1TurnsDiameter E1Length L2TurnsDiameter E2
inchinchinch mminchinchinchinchinchinch mminch mm
270.037037044NaN40.1600 4.32 0.281180.2611 7.05 0.28750.38960.3133NaN3
270.037037044NaN40.1615 4.36 0.373600.2639 7.13 0.380000.39240.4053NaN30.3394NaN4
180.055555554NaN40.2278 4.10 0.491630.4018 7.23 0.502500.59460.543NaN3NaN3NaN3
180.055555554NaN40.2400 4.32 0.627010.4078 7.34 0.637500.60060.6753NaN3NaN3NaN3
140.071428574NaN40.3200 4.48 0.778430.5337 7.47 0.791780.78150.844NaN4NaN4NaN4
140.071428574NaN40.3390 4.75 0.988870.5457 7.64 1.001780.79351.054NaN4NaN4NaN4
10.086956524NaN40.4000 4.60 1.238630.6828 7.85 1.256310.98451.3154NaN4NaN4NaN4
0.086956524NaN40.4200 4.83 1.583380.7068 8.13 1.601311.00851.664NaN4NaN4NaN4
0.086956524NaN40.4200 4.83 1.822340.7235 8.32 1.841311.02521.94NaN4NaN4NaN4
20.086956524NaN40.4360 5.01 2.296270.7565 8.70 2.316301.05822.3754NaN4NaN4NaN4
80.1254NaN40.6820 5.46 2.762161.1375 9.10 2.790631.57122.8754NaN4NaN4NaN4
380.1254NaN40.7660 6.13 3.388501.2000 9.60 3.415631.63373.54NaN4NaN4NaN4
80.1254NaN40.8210 6.57 3.888811.2500 10.00 3.915631.683744NaN4NaN4NaN4
480.1254NaN40.8440 6.75 4.387131.3000 10.40 4.415631.73374.54NaN4NaN4NaN4
80.1254NaN454NaN4NaN4NaN4
580.1254NaN40.9370 7.50 5.449291.4063 11.25 5.478631.84005.5634NaN4NaN4NaN4
680.1254NaN40.9580 7.66 6.505971.5125 12.10 6.540631.94626.6254NaN4NaN4NaN4
880.1254NaN41.0630 8.50 8.500031.7125 13.70 8.540632.14628.6254NaN4
1080.1254NaN41.2100 9.68 10.620941.9250 15.40 10.665632.358710.754NaN4
1280.1254NaN41.3600 10.88 12.617812.1250 17.00 12.665632.558712.754NaN4
1480.1254NaN41.5620 12.50 13.872632.2500 18.00 13.915632.6837144NaN4
1680.1254NaN41.8120 14.50 15.875752.4500 19.60 15.915632.8837164NaN4
1880.1254NaN42.0000 16.00 17.875002.6500 21.20 17.915633.0837184NaN4
2080.1254NaN42.1250 17.00 19.870312.8500 22.80 19.915633.2837204NaN4
2480.1254NaN42.3750 19.00 23.860943.2500 26.00 23.915633.6837244NaN4

History

In 1864, William Sellers, then president of Franklin Institute, presented a standard for nuts, bolts, and screws. Out of this effort came the first United States Standard threads, including pipe threads.[5]

See also

External links

Notes and References

  1. Book: Cauldwell, Rex . Plumbing . Taunton Press . Newtown, CT . 2006 . 1561588172 .
  2. Web site: ANSI Thread Series Designations . 2008-04-27 . https://web.archive.org/web/20080514135011/http://www.hemcogages.com/ansi.htm . 2008-05-14 . dead .
  3. http://www.engineeringtoolbox.com/npt-national-pipe-taper-threads-d_750.html Engineering toolbox
  4. Web site: National Pipe Thread.
  5. Web site: BSP and NPT threads - Detailed Explanation, Differences . 2016-04-17 . https://web.archive.org/web/20160426084836/https://www.engineerily.com/1304161-bsp-and-npt-threads-detailed-explanation-differences.htm . 2016-04-26 . dead .