![]() While considering the shank, the first and foremost thing to take note of is the shank diameter.Īnother parameter to consider is the heating effect, tools with larger diameters have more area that rubs on the surface of the material, which means the heat generated is also more.įor example, if you are cutting wood, you will be using high RPMs, when combined with a large shank tool the heating can damage the workpiece or the cutter. Here, 1/16" and 1/32" bit are of smaller diameter compared to their shank and can be used to cut small pockets without switching to a different tool holder because of their uniform shank size. To give you an example, a 1/8" shank toolset can have bit sizes of 1/8", 1/16", and 1/32". These can be very useful if you want to get into tight corners or to reproduce some fine geometry without moving to the V-cutters. With a single shank size, you can get a variety of smaller bit sizes. The 1/4" shank bit is going to provide a greater degree of stability than the 1/8" bit as it is thick and with its larger diameter, it has a lot of surface area to attach to the tool holder Let's understand this considering a 1/4" and a 1/8" shank bit. Whereas bits with more flutes can give a smooth cut but they generate more heat and reduce chip evacuation. Lower flute count can achieve a high chip evacuation but after the cut, it leaves a rough surface. Here only two flutes are engaging with the material, it gives enough time and space for the chips to easily escape from the cutting pocket. However, there are special cutters with coatings that only get activated once they reach a certain temperature.īits with two flutes are used for cutting wood and aluminum as they can efficiently cut the material and still keep the bit cool. ![]() ![]() Heat is a bad thing for most cutters, it reduces the sharpness of your flute and can sometimes be the root cause of a fire in your workspace. If you generate heat while cutting plastic the plastic will slowly melt and stick to your bit causing all sorts of problems to your milling process.Īs the flute size increases, you have to cut the material a little slower, else it'll generate more heat. While working with plastic, you need a cut pattern that removes as much material as you can but also evacuates it quickly as possible without generating any heat. ![]() In the case of end mills, they have spiral-shaped flutes which can effectively mill and plunge through the work material with a screw-like action.īits with a single flute are specifically designed to cut on plastics, HDPE, and acrylic. ![]()
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