Power Skiving is a productive gear machining process with a specific cutting edge that combines the productivity of gear hobbing with the geometric flexibility of gear shaping. It is particularly suitable for internal toothing and for external toothed workpieces with interfering contours. At present, there is still little empirical knowledge available on the design of Power Skiving processes, as the process has only recently become available on the market. The design process can be supported by the use of a mathematical process model and user software. The process model for the SkiveAll software was developed at Fraunhofer IWU. It contains algorithms for the design of Power Skiving processes - from workpiece definition and kinematic design to the calculation of tool geometry and process analysis functions. The software has a modular structure; the central component is the design module.
Process and tool development
- Software-supported technology design: Calculation software SkiveAll
- Monitored, adaptive roller peeling process:
Online process monitoring
Continuous tool condition monitoring
Preparation, visualisation, situational recommendations for action
Intelligent process control
Your benefit
Flexibility
- Adaptive monitored roller peeling process
Accuracy:
- target-oriented process parameters through software-supported technology design
Time:
- Reduced processing times and testing effort
Cost:
- Minimum proportional tool costs
Translated with DeepL
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