1-1/2 GR 60 CUBITRON TYPE R SANDBLASTING DISC (60650019163-AB11448) - 7000045634
3M11448
Prix régulier
$0.95
Preorder today
- 3M™ ceramic abrasive grain is designed for exceptional durability and cutting ability on carbon steel and tool steels, increasing productivity and reducing worker fatigue
- The attachment system allows for efficient installation and removal of the disk, without compromising disk performance or durability.
- Reinforced support is extremely durable for high-pressure and high-speed applications
- The durable resin bond resists heat-induced deterioration, extending the disc's lifespan.
- 3M™ ceramic abrasive grain is designed for exceptional durability and cutting ability on carbon steel and tool steels, increasing productivity and reducing worker fatigue
- The attachment system allows for efficient installation and removal of the disk, without compromising disk performance or durability.
- Reinforced support is extremely durable for high-pressure and high-speed applications
- The durable resin bond resists heat-induced deterioration, extending the disc's lifespan.
3M11448
Prix régulier
$0.95
Preorder today
- 3M™ ceramic abrasive grain is designed for exceptional durability and cutting ability on carbon steel and tool steels, increasing productivity and reducing worker fatigue
- The attachment system allows for efficient installation and removal of the disk, without compromising disk performance or durability.
- Reinforced support is extremely durable for high-pressure and high-speed applications
- The durable resin bond resists heat-induced deterioration, extending the disc's lifespan.
- 3M™ ceramic abrasive grain is designed for exceptional durability and cutting ability on carbon steel and tool steels, increasing productivity and reducing worker fatigue
- The attachment system allows for efficient installation and removal of the disk, without compromising disk performance or durability.
- Reinforced support is extremely durable for high-pressure and high-speed applications
- The durable resin bond resists heat-induced deterioration, extending the disc's lifespan.