When milling complex workpieces on a milling machining center, the following issues should be noted when using CNC end mills.
Spring Clamping Method
End mills for machining centers are mostly clamped by spring clamps, and are in a cantilever state when used. During the milling process, the end mill may gradually extend from the tool holder or even fall off completely. The phenomenon of scrapping the workpiece is generally caused by the oil film between the inner hole of the tool holder and the outer diameter of the end mill shank, resulting in insufficient clamping force.
End mills are usually coated with rust-proof oil when they leave the factory. If non-water-soluble cutting oil is used during cutting, a layer of mist-like oil film will also be attached to the inner hole of the tool holder. When there is an oil film on both the tool holder and the tool holder, it is difficult for the tool holder to firmly clamp the tool holder, and the end mill is easy to loosen and fall during processing.
Therefore, before clamping the end mill, the end mill shank and the inner hole of the tool holder should be cleaned with cleaning fluid, and then clamped after drying. When the diameter of the end mill is large, even if the shank and the chuck are very clean, the tool may still fall off. At this time, a shank with a flattened notch and a corresponding side locking method should be selected. Another problem that may occur after the end mill is clamped is that the end mill breaks at the chuck port during processing. The reason is generally because the chuck has been used for too long and the chuck port has been worn into a cone. At this time, a new chuck should be replaced.
Avoid Vibration of the End Mill
The vibration of the end mill is due to the small gap between the end mill and the chuck, so the tool may vibrate during the processing. Vibration will make the cutting amount of the circumferential edge of the end mill uneven, and the cutting expansion amount will increase compared to the original value, affecting the processing accuracy and tool life. However, when the width of the processed groove is small, the tool can also be vibrated on purpose to obtain the required groove width by increasing the cutting expansion amount. However, in this case, the maximum amplitude of the end mill should be limited to less than 0.02mm, otherwise stable cutting cannot be performed.
In normal processing, the smaller the vibration of the end mill, the better. When tool vibration occurs, you should consider reducing the cutting speed and feed speed. If both have been reduced by 40% and there is still a large vibration, you should consider reducing the cutting amount. If the machining system resonates, the reason may be too high a cutting speed, too low a feed speed, insufficient rigidity of the tool system, insufficient clamping force of the workpiece, and factors such as the shape of the workpiece or the clamping method of the workpiece. At this time, measures such as adjusting the cutting amount, increasing the rigidity of the tool system, and increasing the feed speed should be taken.
Choose a Suitable End Mill
In the CNC milling of the mold and other workpiece cavities, when the cutting point is a concave part or a deep cavity, the extension of the end mill needs to be lengthened. If a long-edge end mill is used, due to the large deflection of the tool, it is easy to vibrate and cause tool breakage. Therefore, during the machining process, if only the blade near the end of the tool is required to participate in the cutting, it is best to use a short-edge long-shank end mill with a longer total tool length.
When using a large-diameter end mill to machine workpieces on a horizontal CNC machine tool, due to the large deformation caused by the tool’s own weight, more attention should be paid to the problems that are prone to end cutting. In the case where a long-edge end mill must be used, the cutting speed and feed speed must be greatly reduced.
Use Appropriate Cutting Parameters
The selection of cutting parameters The selection of cutting speed mainly depends on the material of the workpiece being processed; the selection of feed speed mainly depends on the material of the workpiece being processed and the diameter of the end mill. The tool samples of some foreign tool manufacturers are accompanied by a tool cutting parameter selection table for reference. However, the selection of cutting parameters is also affected by many factors such as machine tools, tool systems, the shape of the workpiece being processed, and the clamping method. The cutting speed and feed speed should be adjusted appropriately according to the actual situation. When tool life is the priority factor, the cutting speed and feed speed can be appropriately reduced; when the chip is not in good condition, the cutting speed can be appropriately increased.
The selection of cutting methods Using down milling is beneficial to prevent blade damage and can increase tool life. However, there are two points to note:
- If ordinary machine tools are used for processing, efforts should be made to eliminate the gap of the feed mechanism.
- When there is an oxide film or other hardened layer formed by casting and forging processes on the surface of the workpiece, reverse milling should be used.
The use of carbide end mills The use range and use requirements of high-speed steel end mills are relatively wide, and even if the cutting conditions are slightly inappropriate, there will not be too many problems. Although carbide end mills have good wear resistance during high-speed cutting, their use range is not as wide as that of high-speed steel end mills, and the cutting conditions must strictly meet the use requirements of the tool.
