Norton® Gemini 66623399064 R766 Center Mount High Density Coated Abrasive Flap Disc, 4-1/2 in Dia, 7/8 in Center Hole, P60 Grit, Coarse Grade, Aluminum Oxide/Zirconia Alumina Abrasive, Type 27/Flat Disc

15699064 MFG #: 66623399064
  • Type: Center Mount High Density, High Density
  • Series: R766
  • Disc Diameter: 4-1/2
  • Center Hole Size: 7/8
  • Grit: P60
  • Grade: Coarse
  • Abrasive Material: Aluminum Oxide/Zirconia Alumina
  • Disc Type: Type 27/Flat
  • Backing Material: Fiberglass
  • Maximum Speed: 13300
  • Color: Black/Blue/Green
  • Applicable Materials: Aluminum, Brass, Bronze, Stainless, Carbon Steel and Titanium
  • Arbor/Shank Size: 7/8
  • Bond Type: Resin
  • Diameter: 4-1/2, 4-1/2 in
  • Grit/Grade: 60/Coarse
  • Type/Shape: Type 27/Flat

Norton® Gemini Coated Abrasive Flap Disc, Center Mount High Density, Series: R766, 4-1/2 in Disc Dia, 7/8 in Center Hole, P60 Grit, Coarse Grade, Aluminum Oxide/Zirconia Alumina Abrasive, Type 27/Flat Disc, Fiberglass Backing, 13300 rpm Maximum, Black/Blue/Green

Previously Norton Neon

  • Alternating zirconia alumina (blue) and aluminum oxide (black) flaps provides higher perfo
  • Type 27 flat discs are designed to be used at a 0 to 15 deg angle on flat surfaces for ble
  • Fiberglass resin backing plates are the most popular due to high strength, lightweight and
  • Polyester cotton backing combination for good cut rate and finishing
  • High density jumbo flaps discs are the choice when working on uneven or curved surfaces, a
Alternating zirconia alumina (blue) and aluminum oxide (black) flaps provides higher performance than aluminum oxide while retaining an economical price
Type 27 flat discs are designed to be used at a 0 to 15 deg angle on flat surfaces for blending and smooth finishing
Fiberglass resin backing plates are the most popular due to high strength, lightweight and ability to absorb vibration
Polyester cotton backing combination for good cut rate and finishing
High density jumbo flaps discs are the choice when working on uneven or curved surfaces, as well as finer grit blending