MAXXimum High-Performance Milling
CAM software for high-performance cutting (HPC)
This package offers outstanding solutions for high-performance cutting (HPC) with spiral and trochoidal tool movements. It combines many advantages, including optimum milling paths, maximum material removal, and the shortest possible production times.
The roughing module is a powerful package for generating spiral and trochoidal toolpaths. Sensational material removal rates allow for extremely fast machining. Stress on the tool and machine is reduced at the same time. As an added advantage, users have maximum programming freedom for 2.5D, 3D, or 5-axis machining jobs. A comprehensive 5-axis HPC package allows spiral-shaped and trochoidal-like paths to be mapped to curved component surfaces.
High-Performance-Cutting (HPC) | DMG HSC 75 linear
High-Performance-Cutting (HPC) of a demo part with hyperMILL® MAXX Machining strategies. High efficient roughing with 5-axis helical drilling and the high-performance-cutting module for roughing.
Features
- Spiral and trochoidal toolpaths for 2.5D, 3D, and 5-axis simultaneous machining
- Intelligent feed rate adjustment
- Fast repositioning in high-speed mode
- Full cuts and abrupt changes in direction are prevented
- Intelligent division of cuts during 3D machining
- High-volume material removal, even with tough workpieces
- Full control of machining parameters
- Uses proven HPC technology from Celeritive™
The High-Performance roughing module
Details about the roughing module in hyperMILL® MAXX Machining
MAXXimum reduction in machining times
MAXXimized tool life
Full cuts are prevented with hyperMILL® MAXX Machining. Stress on the tool is reduced, significantly extending tool life, especially when harder materials are machined.
Intelligent feed rate adjustment
Special automated functions analyze the local component conditions – wrapping and running at speed around the edges – the feed rates along the toolpath are automatically adjusted.
MAXXimum stock removal rate
hyperMILL® MAXX Machining allows users to define minimum and maximum feed rates for different machining situations such as during the approach, the plunge and for the actual machining in the plane.