3M

3M™ Cubitron™ 3 Depressed Center Grinding Wheel, 90007, 36+, T27, 5 in x 1/4 in x 7/8 in

3M 7100303967
$15.59 / Order multiples of 20
Out of Stock
  • Attachment Type: Center Hole
  • Grit: 36+
  • Bond Type: Resin
  • Color: Black
  • Material: Precision Shaped Ceramic
  • Overall Diameter: 5 in
  • Overall Thickness: 0.25 in

The 3M™ Cubitron™ 3 Depressed Center Grinding Wheel is an exceptionally fast-cutting and long-lasting rigid-bonded wheel for heavy weld removal and other heavy-duty grinding applications. Utilizing a depressed center to enable grinding at any angle, this wheel works well on almost all materials while being specially formulated for use on stainless steel, mild steel, and aerospace alloys. Additionally, the 3M™ Cubitron™ 3 Depressed Center Grinding Wheel is powered by 3M Re-Engineered Precision Shaped Grain, a breakthrough proprietary molecular bonding technology designed with sharp, angular structures that continuously fracture to form sharp points. These clean, sharp points help create an abrasive that slices faster, runs cooler, and lasts longer than conventional abrasives. 3M™ Cubitron™ Performance Abrasives are made for professionals who need more from their equipment — so experience the next generation in abrasive performance by choosing the 3M™ Cubitron™ 3 Depressed Center Grinding Wheel.

  • HEAVY-DUTY: Designed for heavy weld removal and other heavy-duty grinding applications on almost all materials — while being specially formulated for use on stainless steel, mild steel, and aerospace alloys
  • ENHANCED SPEED: Delivers up to 15% increased cut rate compared to 3M™ Cubitron™ II Performance Abrasives to help reduce the amount of time and pressure required to get the job done
  • FEWER CHANGEOVERS: Removes up to 1.5x more material compared to 3M™ Cubitron™ II Performance Abrasives
  • LONG LASTING: Designed to last longer than leading competitors
  • 3M RE-ENGINEERED PRECISION-SHAPED GRAIN: Uses Re-Engineered Precision Shaped Grain, a breakthrough proprietary molecular bonding technology designed with sharp, angular structures that continuously fracture to form sharp points to wear evenly, run cool, and optimize mineral breakdown