This size drill bit should be used for drilling the initial hole that will then be tapped. Lastly, the recommended tap drill size is provided for each standard tap size. For each thread count, the equivalent thread pitch is provided and for metric taps, the approximate thread count is shown based on the pitch. The metric system uses the thread pitch, which is the distance between threads, measured in millimeters. In the fractional and screw size systems, the thread count is used, measured in threads per inch. The thread spacing, which may be coarse or fine, is listed after the diameter. A screw size number corresponds to a diameter which is larger for a higher screw size. Fractional sizes are listed in inches, while metric sizes are listed in millimeters following the letter “M”. The decimal equivalents of the diameters are shown in both English and Metric units. Download Pipe Thread Drilled Hole Sizes PDF here.The tap size chart provides a list of standard size taps, specifying the diameter and thread spacing, for fractional, metric, and screw sizes. TAP SIZEĭrill sizes given are the ‘closest’ drill size. Tap Drill Chart (mm and inches)ĭrill sizes given are the ‘closest’ drill size. Both are available as a printable tap drill chart PDF as well. The first tap drill chart below is in mm and the next in inches. This formula works for both metric and imperial units, and for all 60-degree threads (all ISO, DIN, UTS, UNC, UNS, and UNF bolts). Some prefer to use somewhat arbitrary but reliable formulas like: “Dtap = Nominal Diameter – Thread Pitch”. Or they can consult a tap drill chart like those found in the next section. Now engineers can sit down and manually calculate the right tap drill. So for:-Īs per the ISO metric screw thread standard, the thread depth should be 0.614 x pitch, which is why a smaller pitch number also results in a lower thread depth value. The smaller the pitch value, the less deep the threading needs to go. To help you get the grasp of the fine-coarse difference, the M4 classification comprises of the:. Lower percentages such as “75% of the thread depth” are also widely used and considered safe. In our case, the correct tap drill would be the closest to 3.4 mm from below, and that is the 3.3 mm or 0.13-inch tap drill. A rule of thumb is that the right tap drill is around 85% for coarse threads and 90% for fine threads which feature a higher number of threads per axial distance. That would be a 3.7 mm drill bit, but using that drill would leave an inadequate margin for the creation of the appropriate thread depth. If that is the case, can we simply use the next smallest available drill size. The material will have to be cut and pushed out in order to create a thread in that hole. So, if we wanted to drill a hole for our example bolt, we would need to use a drill that is smaller than 4 mm. Finally, 20 is the length of the bolt in mm, measured from the tip of the thread to the bottom of the head (with the exception of oval headed bolts). The second number (0.7) is the pitch which corresponds to the distance between two adjacent threads in millimeters. The “M” indicates the “metric diameter” of its thread (see tap drill chart below), which in our case is 4 mm. Bolts are classified by specification codes such as:- The tap size chart on this page is the list of standard size drill bits in different measurement systems that include fractional, metric, wire gauge number, and letter. Having determined the bolt that we want to use in the specific case, we already have a technical specification for the thread which will host it. Thread Geometry And Drilling The HoleĪs is evident from the above, to create the thread we first need to drill a hole on the workpiece. If the taper needs to go first, the intermediate tap follows second and the thread is finished with the bottoming tap. This minimises the risk of damaging the drilled hole. The taper tap features a smooth diameter transition that allows for a less aggressive cutting action. The taper tap is only used in certain situations such as when the material is very hard or the hole is too small. However, the bottoming tap cannot start the threading on an uncut hole, so it can only take part in the cutting process as the second or third tap. So next comes the bottoming tap that has the capacity to do this. Unfortunately, due to the shape it can’t create a thread all the way to the end of the hole. That is why it features a tapered bit, allowing the machinist to align it correctly. The intermediate, or plug tap, is used first to start cutting out material from a non-threaded hole. To create a thread properly, one would need a set of three taps that correspond to the same bit size namely the bottoming, the intermediate, and the taper tap. Therefore the tap drill chart is extremely important. As you would expect, taps come in all forms and sizes in order to accommodate standardised screw threads.
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