Tiger WEI 58079
Tiger 58079 Performance Line Depressed Center Grinding Wheel, 6 in Dia x 1/4 in THK, 7/8 in Center Hole, 24 Grit, Zirconia Alumina Abrasive
Invoice description:
6" X 1/4" Tiger Zirc Typ E 27 Grinding Wheel,
Tiger Depressed Center Grinding Wheel, Performance Line, 6 in Wheel Diameter, 1/4 in Wheel Thickness, 7/8 in Center Hole, Arbor Connector, 24 Grit, Coarse Grade, Zirconia Alumina Abrasive, Wheel Type Number: Type 27, 10200 rpm Maximum, Resin Bond, Applicable Materials: Carbon Steel, Structural Steel, Cast Iron, Steel and Stainless Steel, Wheel Hardness: T, Yes Reinforced, Specifications Met: ANSI B7.1-2010
Features
- 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 Abrasives 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
Specifications
ApplicationHeavy Stock Removal, Scale Removal, Weld Removal, Weld Blending, Edge Beveling, Torch-Cut Softening, Cutting and Parting, Notching and Rough Grinding
Abrasive MaterialZirconia Alumina
Applicable MaterialsCarbon Steel, Structural Steel, Cast Iron, Steel and Stainless Steel
Bond TypeResin
Center Hole Size7/8 in
Connector TypeArbor
GradeCoarse
Grit24
Maximum Speed10200 rpm
ReinforcedYes
Specifications MetANSI B7.1-2010
TypePerformance Line
Wheel Diameter6 in
Wheel HardnessT
Wheel Thickness1/4 in
Wheel Type NumberType 27
Additional Information
Standards/ApprovalANSI B7.1-2010
Country of OriginSI