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Form thread tap drill size11/18/2023 For example, for a 1/4-20 UNC-2B thread, any drill that produces a hole between 0.1960" and 0.2070" in diameter could be used. The drill selected should produce a hole size that falls between the minimum and maximum minor diameter for the class of thread. The drilled hole must be within the specification for the class of thread. If tap/drill charts are not adequate for today’s machining practices, then how do you establish proper drill size? For a start, keep in mind these factors: Table 1: Typical tap/drill chart, featuring probable hole sizes. 5 drill to produce a hole that’s 70% of thread height. 7 drill may no longer be the correct drill size for a 1/4-20 UNC-2B thread. Changing to one of these advanced drills could result in tap breakage where none existed before. Producing smaller pretapped holes substantially increases the workload on the tap. Today’s advanced drills - powered by more accurate, higher speed machine tools - are producing holes much closer to the actual measured size of the drill, or even smaller than the drill diameter. And staying below the maximum minor diameter prevents the production of threads that are too shallow. This makes tapping easier and reduces the possibility of tap breakage. The drill is removing as much material as possible from the hole, reducing the load on the tap. Compared to the minor-diameter specifications for a 1/4-20 UNC-2B tap (0.1960"- to 0.2070"-dia.), the finished hole size is near the high limit, 0.0022" under the maximum minor diameter (Table 2). This would result in a drilled hole size of 0.2048", approximately 70% of thread height. 7 (0.2010"-dia.) drill will, on average, produce a hole that is 0.0038" larger than the drill’s diameter. This became known as the "probable hole size," which is often listed on tap/drill charts next to the decimal equivalents of the drill sizes (Table 1). Advanced drillpoint geometries, new flute shapes, coolant holes, improved HSS and carbide grades, and coatings like TiN and TiCN have done much to improve the quality and size of the drilled hole.Īs drill recommendations were being developed for standard-size coarse (UNC) and fine (UNF) series threads, drill sizes were selected based on tests showing that a standard, general-purpose, jobber-length drill - having a standard 118° point angle - will produce a hole size larger than the measured drill diameter. Most importantly, the drills used to make the holes to be tapped have improved. Many changes have taken place in the years since tap/drill charts were first developed - programmable machinery, rigid tapping, synchronous tapping, better toolholders, specialized tapping fluids, and premium high-grade taps. The problem is, that factor can’t be calculated accurately using traditional tap/drill charts. While many factors contribute to tap failure or breakage, one basic, obvious factor is often overlooked - the size of the drilled hole. The key to successful tapping is knowing the true size of the drilled hole.
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