Find more information about:
Efficiency is key to getting the most from any machining process. Conventional roughing strategies, though, typically only achieve the optimum cutting conditions during a straight-line cut. Any internal corners within the model significantly increase the engagement angle of the cutter. To protect the cutter, this increase needs to be balanced by setting a lower feed rate. The user then has the choice of using this lower rate over the whole tool path, which increases the machining time, or varying the feeds and speeds as the cutter moves around the model, and so increasing wear on the cutter.
The Vortex strategy, developed by Delcam, produces tool paths with a controlled engagement angle for the complete operation. This technology has been developed specifically to gain the maximum benefit from solid carbide tooling, in particular those designs that can give deeper cuts by using the full flute length as the cutting surface. It can be used for two- and three-axis roughing, three-plus-two-axis area clearance and for rest machining based on stock models or reference tool paths.
Like other Delcam roughing strategies, Vortex tool paths are calculated to provide efficient machining by following the shape of the part and by keeping air moves to a minimum. This method is particularly important for rest machining operations.
The benefits of using the Vortex strategy will vary depending on a number of factors, including the material and shape being cut and the machine tool and cutting tools being used. A series of trials run by the company on a variety of machine tools within its Advanced Manufacturing facility has shown time savings often surpassing 40 percent, with the cycle time for one sample part being reduced from 121 minutes to 34 minutes (71-percent savings).
Other examples include a reduction of 67 percent when cutting a number of pockets in a stainless steel part, a 63-percent time savings on a titanium part, and a 58-percent savings when cutting an aluminum component.
Unlike other high-speed roughing techniques that aim to maintain a constant theoretical metal removal rate, the Vortex strategy produces tool paths with a controlled engagement angle for the complete operation. This maintains the optimum cutting conditions for the entire tool path that would normally be possible only for the straight-line moves. As a result, the cutting time is shorter, while cutting is undertaken at a more consistent volume-removal rate and feed rate, thus protecting the machine.
Extended Tool Life
Because Vortex tool paths have a controlled engagement angle, tools should never be overloaded, thus achieving the maximum tool life. Shock loading caused by changes in the contact angle is minimized, preventing chipping of the flutes. In addition, the stability of the cutting conditions gives consistent edge temperatures, prolonging the life of the tool coating and preventing heat damage to the surface of the part. Finally, the ability to use stepdowns of as much as two or even three times the tool diameter spreads the tool wear evenly over the cutting surface of the tool, again contributing to longer tool life.
Vortex is fully integrated with PowerMill’s step-cutting strategy for area clearance. This approach minimizes the terracing that can result from using a large stepdown by moving back up the part after generating the initial area clearance program and generating automatically extra tool paths to remove additional material at intermediate slices. It optimizes the amount of material that can be removed with a single tool, while helping to maintain a more consistent removal rate by increasing the feed rate for the intermediate slices.
“Anyone using the Vortex strategy will be able to hear the difference immediately,” says Mark Forth, product manager for Delcam’s Advanced Manufacturing Solutions. “Conventional roughing produces a sound of varying pitch, which indicates that the optimum cutting conditions are not being used and could even be a sign of tool overload or chatter. In contrast, Vortex roughing gives a constant pitch, showing that the tool is operating under consistent conditions. Users will also be able to see the difference in the regular size and thickness of the chips produced, providing further evidence of the consistency of the cut.”