Norton® Blaze® 66261090276 R980P Narrow Coated Abrasive Belt, 3 in W x 79 in L, 50 Grit, Coarse Grade, Ceramic Alumina Abrasive, Polyester Backing

15632574 MFG #: 66261090276
  • Belt Length: 79
  • Length: 79
  • Belt Width: 3
  • Width: 3
  • Grit: 50
  • Grit/Grade: 50/Medium
  • Abrasive Material: Ceramic Alumina
  • Grade: Coarse
  • Backing Material: Polyester, Y-Weight Polyester
  • Backing Weight: Y-Weight
  • Applicable Materials: 300 Series Stainless, 400 Series Stainless, Aluminum, Brass, Bronze, Cast Iron, Copper, Ductile Iron, Gray Iron, Hard Carbon Steel, Soft Carbon Steel, Super Alloy, Titanium and Tool Steel, Mild/Carbon Steel, Cobalt, Chrome, Inconel, Titanium and Stainless Steel
  • Coat Type: Closed
  • Color: Orange
  • Series: R980P
  • Type: Narrow
Norton® Blaze® Coated Abrasive Belt, Narrow, Series: R980P, 79 in Belt Length, 3 in Belt Width, 50 Grit, Coarse Grade, Ceramic Alumina Abrasive, Polyester Backing, Closed Coat, Orange, Applicable Materials: 300 Series Stainless, 400 Series Stainless, Aluminum, Brass, Bronze, Cast Iron, Copper, Ductile Iron, Gray Iron, Hard Carbon Steel, Soft Carbon Steel, Super Alloy, Titanium and Tool Steel, Y-Weight Backing Weight
  • Next generation SG ceramic alumina abrasive for exceptional cut rate and life especially o
  • Aggressive cut rate throughout the life of the belt with up to 5X performance advantage ov
  • Durable Y-weight polyester, waterproof cloth backing for improved grain adhesion reduced e
  • Grinding aid coating means cooler cut, burn-free grinding of heat sensitive materials and
Next generation SG ceramic alumina abrasive for exceptional cut rate and life especially on hard to grind alloys
Aggressive cut rate throughout the life of the belt with up to 5X performance advantage over standard belts
Durable Y-weight polyester, waterproof cloth backing for improved grain adhesion reduced edge fray and better body retention resulting in longer life and product consistency
Grinding aid coating means cooler cut, burn-free grinding of heat sensitive materials and minimized loading