Norton 66261020549 115 x 22mm Rapid Blend Non Woven High Strength Disc available online - Caulfield Industrial
Go

Norton 66261020549 115 x 22mm Rapid Blend Non Woven High Strength Disc

€14.88 Ex Vat

Norton 66261020549 115 x 22mm Rapid Blend Non Woven High Strength Disc View Large Image
p-H19067

See Alternative
Title Quantity Price Availability
Norton 66261020549 115 x 22mm Rapid Blend Non Woven High Strength Disc €14.88 Ex Vat
Add To Basket Add to Wishlist

Norton 66261020549 115 x 22mm Rapid Blend Non Woven High Strength Disc

 

Norton Rapid Blend is specifically engineered to provide the best in refining applications. With its closed, silicon carbide structure, the Rapid Blend cuts freely with minimal heat, making it perfect for refining even the smallest of defects whilst providing a consistent satin like finish. The Rapid Blend also resists loading allowing it to be used on a wide range ferrous and non-ferrous materials.Non woven depressed center finishing discs are a combination of strong synthetic mesh and quality abrasives, bonded together by a smear resistant adhesive. They are ideal for use on portable tools to clean and remove imperfections on metal surfaces, clean, deburr or finish a variety of surfaces, blend weld seams, or create decorative finishes. The open construction of the non woven material enables aggressive cutting action and improved surface finish while maintaining its non loading feature.

Features:
  • Fine silicon carbide and flexible 2 density Unitised construction
  • Wide range of solutions for finishing ferrous and non ferrous materials
  • Modified resin system
  • Undersized backing plate
  • Excellent for fine, consistent satin finish
  • Longer life and more parts per disc, resists loading
  • Cuts more freely and with less heat than competitor products
  • Longer usable diameter
  • Refining and Finishing
Specifications:
  • Material: Fiberglass
  • Diameter: 114 mm
  • Thickness: 13 mm
  • No-Load Speed: 12000 rpm
  • Grit: 100

Oops! Something went wrong there and we were unable to load the page you requested.

Sign Up