Norton® Bear-Tex® Rapid Prep™ 66261094949 Surface Conditioning Non-Woven Abrasive Hook and Loop Disc, 7 in Dia, 220 Grit, Super Fine Grade, Silicon Carbide Abrasive, Nylon Fiber/Nylon Scrim Backing
15632808
MFG #: 66261094949
- Type: Surface Conditioning
- Diameter: 7
- Disc Diameter: 7
- Grit: 220
- Grade: Extra Fine, Super Fine
- Abrasive Material: Aluminum Oxide, Silicon Carbide
- Backing Material: B-Weight Paper, Nylon Fiber/Nylon Scrim
- Backing Weight: B-Weight
- Attachment Type: Hook and Loop
- Color: Gray
- Applicable Materials: Ferrous Alloy, High Tensile Materials and Wood
- Maximum Speed: 6000
Norton® Bear-Tex® Rapid Prep™ Non-Woven Abrasive Hook and Loop Disc, Surface Conditioning, 7 in Diameter Disc, 220 Grit, Super Fine Grade, Silicon Carbide Abrasive, Nylon Fiber/Nylon Scrim Backing, B-Weight Backing Weight
- Sharp silicon carbide abrasive for faster cutting and extra bright finishes
- Clean bond resin sys
- Premium high loft nylon fiber bonded to a strong nylon scrim backing allows a thick layer
- Smear-free, even on
- Proprietary clean bond resin technology guarantees smear-free finishes even on high nickel
- Will not load on alu
- Fine grit for final surface prepping, blending, cleaning, detailing and finishing welds
- Proprietary new coat
- Thick layer of grain
- Extended form holdin
- Lowest total cost of
- 50% better life than
Sharp silicon carbide abrasive for faster cutting and extra bright finishes
• Clean bond resin system, aerospace-tailored
Premium high loft nylon fiber bonded to a strong nylon scrim backing allows a thick layer of resin bond and grain for extended life, added durability and stiffness
• Smear-free, even on high nickel content alloys
Proprietary clean bond resin technology guarantees smear-free finishes even on high nickel content alloys and reduces loading on aluminum and other soft metals
• Will not load on aluminum and soft metals, as competitive products may
Fine grit for final surface prepping, blending, cleaning, detailing and finishing welds
• Proprietary new coating method
• Thick layer of grain throughout the product extends life; grain does not sit on top of fibers as other competitive products may
• Extended form holding
• Lowest total cost of consumable tooling per workpiece
• 50% better life than competitive aluminum oxide products