SGS® 32575 V-Carb™ 55CR Corner Radius Medium Length Single End High Performance End Mill, 1/2 in, 1-1/4 in Max Depth of Cut, 5 Flutes, 1/2 in Shank, 3 in OAL
Corner Radius & Corner Chamfer End Mills
443048
MFG #: 32575
SGS
72.62000
/ ea
- Catalog Number: 32575
- Country of Origin: UKN
- Cutting Direction: Right Hand
- Flute Type: Right Spiral
- Gross Weight Per Pack: 0.2800 lb
- Helix Angle: 45 °
- Material: Solid Carbide
- Series: V-Carb™ 55CR
- Shank Length: 1-3/4 in
- Shank Type: Straight
- Standards: ISO 9001, 9002
- Type: Center Cutting High Performance Positive Rake Single End
- UNSPSC: 23242511
- UPC 11: 69178132575
- UPC 12: 69178132575
- Stock Status: NONSTOCK
- Brand: SGS
- Manufacturer: KYOCERA SGS Precision Tools
- Corner Radius: 0.03 in
- Cutter Diameter: 1/2 in
- Finish: AlTiN Coated
- Length of Cut: 1-1/4 in
- Number of Flutes: 5
- Overall Length: 3 in
- Shank Diameter: 1/2 in
The V-Carb end mill is the finishing touch that you can expect more from. The geometry produces superior surface finishes in ferrous materials with a high level of accuracy needed for semi-finishing and finishing of components. However, the chatter suppressing design allows you to push the tool well beyond the limits of light finishing cuts. Tackle a range of applications with this tool.
- Catalog URL - SGS_101D00276X_Catalog.pdf(Catalog URL)
- Safety Data Sheet URL - IDW_DOCUMENT_1480762921656.pdf(Safety Data Sheet URL)
- Tech Drawing URL - IDW_DOCUMENT_1480762692508.jpeg(Tech Drawing URL)
- Video - https://www.adhqcatalog.com/ASSETS/DOCUMENTS/ITEMS/EN/SGS_32569_Datasheet.pdf(Video)
- Video - https://youtube.com/embed/-nBE4nJr3aM(Video)
- Features
High performance finishing and semi-finishing 5 flute variable geometry end mill; 45 DEG right spiral helix angle; Positive rack angle; External coolant recommanded; Variable pitch combined with an odd number of flutes suppresses chatter and produces better surface finishes; Rigid construction minimizes deflection and increases part accuracy; Optimized tool geometry allows for improved shearing and decreased loads |