Tag Archives: thread

Thread identification guide

Thread identification guide

STEP 1

Determine if the thread is tapered or parallel/straight.

Measure the thread with a caliper at the beginning and the end. If the diameters increase for a male end or decrease for a female end, the thread is tapered. If it is the same value the thread is straight/parallel.

STEP 2

Determine the thread size and type. Imperial sizes are normally common fractions ¼”=0.25”.

Measure the outside diameter OD for male and inside ID for female threads.

If the thread is tapered measure the diameter of 4th or 5th full thread.

The diameter measurement obtained in this step may not be exactly the same as the listed nominal size for the given thread. This variation is due to manufacturing tolerances.

STEP 3

Determine the pitch for metric or the amount of threads per inch (T.P.I) for imperial sizes.

In both cases Thread pitch gauges can be used.

TPI 28 27 24 20 19 18  16  14  12 11.5 11 8
Thread pitch (mm) 0.91 0.94 1.06 1.27  1.34  1.4  1.59  1.81  2.12 2.21 2.31 3.18

Check for any markings on fitting or equipment which may be a clue to thread type. Country of origin may provide a clue.

Europe (DIN,BSP), America (NPT, JIC, UNO, ORFS), UK/Australia (BSP), Japan (JIS).

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Bolt tensile strength

Bolt tensile strength

DIN EN ISO 898-1 (2009-09)

DIN EN ISO 3506-1 (2010-03)

DIN EN ISO 898-1 (2009-09)
DIN EN ISO 3506-1 (2010-03)

The strength of standard ISO metric steel bolts is readily identified by means of a numerical code.

The code is comprised of two numbers separated by a dot. This dot is not a decimal marker but is merely a means of separating the two parts of the code. The number to the left of the dot when multiplied by 100 provides an indication of the Ultimate Tensile Strength (in MPa) while the number to the right when multiplied by 10 times the preceeding number gives the Yield Strength (in MPa)

Example: 8.8
Tensile Strength
8 x100 = 800MPa

Yield Strength
8 x 8 x 10 = 640 MPa

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Power Screw

Power screw calculator

The calculator provides the torque necessary in a power screw for raising or lowering a load. The collar torque friction is also calculated and it is included in the torque for raising and lowering. Self-locking and efficiency for raising are calculated. A self-locking screw will hold the load F in place without any application of torque.