A pipe thread is a spiral ridge on the end of a pipe that enables pipes to be joined together. For male fittings, pipe thread appears on the outer diameter of the pipe; if female, the pipe thread appears on the inner diameter. By rotating a male pipe end into a female pipe thread, the two fittings become joined. Since male and female pipe thread must align successfully to form a connection, manufacturers follow pipe thread industry standards.
The two main pipe thread standards are
as follows:
- · The British Standard Pipe thread (BSP)
- · The American National Pipe Thread (NPT)
Types of Pipe
Threads Pipe threads are used to make not only a mechanical joint but also a
leakproof liquid seal. This is accomplished by machining the thread form on a
taper and using pipe sealant to fill any voids between the two threads which
could cause a spiral leak.
In both thread standards there are 2
different types of threads:
- · Parallel ('straight') threads, BSPP (British Standard Pipe Parallel Thread), which have a constant diameter; denoted by the letter G.
- · Taper threads, BSPT (British Standard Pipe Taper Thread), whose diameter increases or decreases along the length of the thread; denoted by the letter R.
A parallel
pipe thread only forms a mechanical seal and is not used for liquid seal
applications. While a tapered pipe thread that can make a close-fitting wet
seal.
Pipe threads used for liquid joints
can be divided into two types:
- · Jointing threads: These are pipe threads where pressure-tightness is made through the mating of two threads together. They always use a taper male thread, but can have either parallel or taper female threads and the seal is usually secured with a sealant compound.
- · Fastening threads: These are parallel pipe threads used where a pressure-tight joint is achieved by the compression of a soft material (such as an o-ring seal, gasket or a washer) between the end face of the male thread and a socket or nipple face, with the tightening of a backnut.
British Standard Pipe (BSP) Thread
In the
nineteenth century, many different types of screw threads were required for
hydraulic and pneumatic circuits as well as fastening components. As a result,
manufacturers started to devise their own fastening systems. This resulted in
compatibility problems. The English mechanical engineer and inventor, Sir
Joseph Whitworth devised a uniform threading system in 1841 to address the
incompatibility problem. The Whitworth thread form is based on a 55 degree
thread angle with rounded roots and crests. The joint is made self sealing by
cutting at least one of the threads on a taper (usually the male thread). This
became known as the British Standard Pipe thread has been adopted
internationally for interconnecting and sealing pipe ends. The image below
shows a BSPT (BSP Taper) male thread sealing in BSPP (BSP Parallel) female
coupling. To achieve the taper the bottoms of the threads aren't on a cylinder,
but on a cone; with a taper which is 1⁄16 inch in an inch, which is the same as
3/4 inch in a foot. The taper divided by a centre line yields an angle 1° 47'
24" or 1.7899° as measured from the centre axis. Commonly-used sizes are
⅛, ¼, ⅜, ½, ¾, 1, 1¼, 1½, and 2”, available at most suppliers. Larger sizes are
used less frequently because other methods of joining are more practical for 3”
and above in most applications. The most important point to understand about
pipe threads is that their size refers to the diameter of the hole going
through the fitting (i.e. where the media travels such as air or oil, etc), and
not the diameter of the thread itself
National Pipe
Thread (NPT)
In America,
William Sellers set the standard for nuts, bolts, and screws which became the
National Pipe Tapered Thread (NPT) in 1864. His 60 degree thread angle with
flat crests and roots is the American standard for tapered threads used to join
pipes and fittings. The ANSI/ASME standard B1.20.1 covers threads of 60-degree
form in sizes from 1/16” to 24” Nominal Pipe Size (NPS).
The taper
rate for NPT threads is the same as BSPT (3/4” per foot) measured by the change
of diameter (of the pipe thread) over distance. Sometimes NPT threads are
referred to as MPT ('Male Pipe Thread'), MNPT, or NPT(M) for male (external)
threads; and FPT ('Female Pipe Thread'), FNPT, or NPT(F) for female (internal)
threads.
Sealing a Tapered Thread
Because of the taper, a pipe thread can only
screw into a fitting a certain distance before it jams. The standard specifies
this distance as the length of hand tight engagement, the distance the pipe
thread can be screwed in by hand. It also specifies another distance – the
effective thread, this is the length of the thread which makes the seal on a
conventional machined pipe thread. For pipefitters, instead of these distances,
it is more convenient to know how many turns to make by hand and how many with
a wrench. A simple rule of thumb for installing tapered pipe threads, both
metal and plastic, is finger tight plus one to two turns with a wrench. Torque
installation values can be determined per application, but due to the
variations involved in pipe joints such as disimiliar materials of male and
female threads, type of sealants used, and internal variations in product wall
thickness, a standard torque specification cannot be generically applied. The
table below compares the critical dimensions of BSP and NPT threads and gives
the number of turns to hand tighten.
