Weiler

Tiger 58070 Performance Line Depressed Center Grinding Wheel, 4-1/2 in Dia x 1/4 in THK, 24 Grit, Zirconia Alumina Abrasive

WEILER 58070
$7.54 / Order multiples of 10 EA
Out of Stock
  • Abrasive Material: Zirconia Alumina
  • Diameter: 4.5 in
  • Thickness: 1/4 in
  • Grade: Extra Coarse
  • Grit: 24
  • Maximum Speed: 13300 rpm
  • Applicable Material: Carbon Steel, Structural Steel, Cast Iron, Steel and Stainless Steel
  • Arbor/Shank Size: 5/8 in -11 UNC
  • Bond Type: Resin
  • Type: Performance Line
  • Wheel Type Number: Type 27

Weiler's high quality line of grinding wheels help metal fabrication professionals get the most demanding jobs done right and done fast.

  • Type 27 grinding wheels are designed with fiberglass cut back from the edge to provide instant aggressive grinding on new wheels
  • High performance wheels leverage a self-sharping zirconia alumina grain that delivers fast, consistent grinding on steel and stainless steel
  • All wheels are ceramic infused for that extra surge in performance
  • Self-sharpening zirconia grain retains high cutting performance through the life of the wheel
  • Performance line - Weiler® Tiger® wheels deliver the right combination of performance and value
  • This versatile line-up offers a long life solution for all your general purpose applications
  • Type 27 - flat profile with depressed center allows for a wide range of grinding angles (0 to 45)
  • Ceramic infused for faster, longer grinding

Heavy Stock Removal, Scale Removal, Weld Removal, Weld Blending, Edge Beveling, Torch-Cut Softening, Cutting and Parting, Notching and Rough Grinding

Tiger Depressed Center Grinding Wheel| Performance Line| 4-1/2 in Wheel Diameter| 1/4 in Wheel Thickness| Quick-Change Connector| 24 Grit| Coarse Grade| Zirconia Alumina Abrasive| Wheel Type Number: Type 27| 13300 rpm Maximum| Resin Bond| Applicable Materials: Carbon Steel| Structural Steel| Cast Iron| Steel and Stainless Steel| 5/8-11 Center Hole Thread Size| Wheel Hardness: T| Yes Reinforced| Specifications Met: ANSI B7.1-2010