Norton® Gemini® 66252841910 Type 27 Depressed Center Cut-Off Wheel With Quick-Change Hub, 5 in Dia x 0.045 in THK, 7/8 in Center Hole, 24 Grit, Aluminum Oxide Abrasive
15541910
MFG #: 66252841910
- Type: Type 27 Depressed Center
- Grit: 24
- Grade: Extra Coarse
- Abrasive Material: Aluminum Oxide
- Maximum Speed: 12225
- Bond Type: Resin
- Applicable Materials: Aluminum, Ferrous Metal, Gray Iron and Stainless Steel
- Arbor/Shank Size: 7/8
- Diameter: 5
- Thickness: 0.045
Norton® Gemini® Cut-Off Wheel, Type 27 Depressed Center, 5 in Wheel Diameter, 0.045 in Wheel Thickness, 7/8 in Center Hole, Arbor Connector, 24 Grit, Extra Coarse Grade, Aluminum Oxide Abrasive, Wheel Type Number: Type 27, 12225 rpm Maximum, Resin Bond, Applicable Materials: Aluminum, Ferrous Metals, Gray Iron and Stainless Steel
- Premium aluminum oxide for consistent performance at a competitive price
- Designed only for cut-off applications where a fast cut and minimum material loss are desi
- High performance bond designed for extremely fast cut while retaining excellent wheel life
- Excellent blend of p
- Excellent blend of performance and price
- High performance bon
- Designed for quick cutting on right angle grinders with proper flanges
- With quick-change hub for tool free wheel changes to increase productivity
- Depressed center whe
Premium aluminum oxide for consistent performance at a competitive price
Designed only for cut-off applications where a fast cut and minimum material loss are desired
High performance bond designed for extremely fast cut while retaining excellent wheel life
• Excellent blend of performance and price
Excellent blend of performance and price
• High performance bond designed for extremely fast cut while retaining excellent wheel life
Designed for quick cutting on right angle grinders with proper flanges
With quick-change hub for tool free wheel changes to increase productivity
• Depressed center wheels are designed to handle the most severe right angle grinding applications from heavy stock removal to rough blending