Solutions for cost effective and high-quality machining of aerospace wing
The main challenges for machining these types of structural components are the hole making, edging and surface machining.
Tooling solutions for aerospace wing
Composite solutions – product offer for composite machining
Machining solutions dedicated to specific composite materials as well as operations and demands are becoming an increasingly important competitive factor.
CoroDrill® 863 with -O geometry - solid carbide drills for high quality hole making and longer tool life in composite
Hole making in CFRP (carbon fibre reinforced polymer composite) - facts and demands
- Minimal delamination of fibres
- Good surface finish and dimensions
- Unidirectional or woven layers
- High rate of material removal
Solutions
- CoroDrill® 863 with -O geometry, standard diameter range 3–9.5mm (0.118–0.374 inch)
- Drill depth 3–10 × drill diameter
Benefits
- Enhanced tool life – more metres of composite material drilled
- Minimal delamination
- Excellent hole finish and tolerance
Cutting data
- Visit CoroPlus® ToolGuide for precise cutting data suggestion
CoroMill® Century - Surface machining of carbon fibre
Facts and demands
- Primary structure carbon fibre
- Minimal splintering of fibres and delamination
- Good surface finish and dimensions
Solutions
- CoroMill Century with PCD inserts
- Cutter: R590-04C3-11M
- Inserts: R590-1105H-PS2-NL CD10
Cutting data
- Visit CoroPlus® ToolGuide for precise cutting data suggestion
Learn more about CoroMill Century Light cutting face mill for high speed finishing
CoroMill® 390 - Sturtz milling: profiling of carbon fibre
Facts and demands
- Tilting of tool 2-10 degrees- High rpm and feed rate
- Primary structure carbon fibre
- Hand held pneumatic machine design
- 2D and 3D feature solutions
- Good surface finish and dimensions
Solutions
- CoroMill 390
- Cutter: R390-032A32-11H
- CD10 PCD inserts (3 mm (0.118 inch) modied radii)
Cutting data
- Visit CoroPlus® ToolGuide for precise cutting data suggestion
Ball end scanning Vs Sturtz
32 mm (1.260 inch) diameter tools used with the same cutting data.
| 32 mm Ball | 32 mm Sturtz | |
| Surface Speed, m/min (ft/min) | 2011 (6597.69) | 2011 (6597.69) |
| RPM | 20000 | 20000 |
| Feed/tooth, mm/min (in/tooth) | 0.12 (0.005) | 0.12 (0.005) |
| Table feed, mm/min (in/min) | 12000 (472.441) | 12000 (472.441) |
| No of flutes | 5 | 5 |
| Step over, mm (in) | 3.52 (0.139) | 11 (0.433) |
| Passe/Sq Metre | 284 | 91 |
| Time for 1 Sq Metre | 23.7 | 7.6 |
| Over 3 times faster generating the surface |
Typical to use smaller ball end tools resulting in even greater productivity when switching to Sturtz techniques.
