SX – High Dynamic Cutting HDC

[ 3 ] 1 2 3 5 4 CAM software Machine environment HDC application Cutting data Tool The new multi-toothed SX tools have been developed specifically for the HDC-S application. This includes the cutting data, too. The tools feature low vibration, reduced cutting forces, excellent chip removal, great perfor- mance, and a long tool life. Cutting data The cutting data for the SX high-performance milling cutters are available online, at any time, in FRAISA ToolExpert® . This online cutting-data tool delivers perfectly coordinated, tool- and material-specific cutting data, and therefore the perfect basis for optimum usage of the SX tools – quick and easy. The CAD and cutting data can be downloaded automatically. Our tip: When selecting the material, enter the exact material number to obtain the matching cutting data. CAM software Most CAM systems have the modules necessary to implement the High Dynamic Cutting (HDC) strategy. The names of the modules differ depending on the software company. Machine environment SX high-performance milling cutters achieve maximum productivity on dynamic machines with medium spindle power. Due to the materials, normal cutting speeds and feed rates are achieved. Thanks to the low cutting forces in the machining process, a sophisticated machine design can also compensate for unstable workpiece clamping. HDC application The SX tools have been designed with many cutting edges and are therefore suitable for the High Dynamic Cutting Speed ( HDC-S ) application rather than High Dynamic Cutting Performance (HDC-P). The radial infeed rate is 5–10% of the tool diameter. The axial infeed rate should be as high as possible, at a maximum up to the overall cutting edge length (l2). High Dynamic Cutting (HDC) The five building blocks for successful implementation Tool 1 2 3 4 5