Product Overview
The CGS Tool M2212-UC is, uh, an 8mm diameter 2-flute solid carbide square end mill, made for high-speed machining on aluminium and other non-ferrous metals, plastics, plus composite materials. It sits in the 2000 Series Ferocious lineup, so you get strong chip evacuation, higher material removal rates, and a pretty dependable machining feel for hard CNC milling jobs.
Made from premium solid carbide, the M2212-UC has CGS Tool’s own 55° high helix geometry, sort of tuned to improve chip flow, lower cutting forces, and handle fast aggressive feeds with more ease. The square end format gives crisp, accurate cutting results, which makes it suitable for slotting, pocketing, profiling, contouring, and even finishing passes. Also, the extended 35mm length of cut with a 75mm overall length gives you good reach for deep cavities and long reach milling. At the same time, it helps keep rigidity and cutting stability, not too soft. And since it’s uncoated, it’s geared toward aluminium and non-ferrous work, so you can keep things moving efficiently with chip evacuation and clean cutting, without any coating buildup showing up.
Tool Specifications:
- Diameter: 8mm
- Shank: 8mm
- Length of Cut (LOC): 35mm
- Overall Length (OAL): 75mm
- Flutes: 2 Flute
- End Style: Square End
- Radius: None
- Material: Solid Carbide
- Coating: Uncoated
- Helix Angle: 55°
- Series: 2000 Series Ferocious
- Part No: M2212-UC
Key Performance Features:
- 2-flute square end design provides efficient chip evacuation and precise cutting performance.
- Original 55° high helix geometry promotes smooth chip flow and reduced cutting forces
- Uncoated cutting edges deliver clean machining performance in aluminum and non-ferrous materials
- Optimized for high-speed milling applications requiring maximum chip clearance
- Extended 35mm length of cut supports deep milling, profiling, and pocketing operations
- 75mm overall length provides additional reach for complex machining applications
- Square end geometry produces sharp corners and accurate machining results