Norton® Bear-Tex® Rapid Prep™ 66623333452 Low Flex Highest Density Portable Stiffest Surface Conditioning Non-Woven Abrasive Belt, 3-1/2 in W x 15-1/2 in L, Fine Grade, Aluminum Oxide Abrasive, Green
15633164
MFG #: 66623333452
- Type: Low Flex Highest Density Portable Stiffest Surface Conditioning
- Belt Length: 15-1/2
- Length: 15-1/2
- Belt Width: 3-1/2
- Width: 3-1/2
- Grit: 220
- Grade: Extra Fine, Fine
- Abrasive Material: Aluminum Oxide
- Color: Green
- Applicable Materials: Aluminum, Carbon Steel, Stainless Steel, Titanium and Other Exotic Alloys
- Backing Material: X-Weight Nylon
Norton® Bear-Tex® Rapid Prep™ Non-Woven Abrasive Belt, Low Flex Highest Density Portable Stiffest Surface Conditioning, 15-1/2 in Belt Length, 3-1/2 in Belt Width, 220 Grit, Fine Grade, Aluminum Oxide Abrasive, X-Weight Nylon Backing, Green, Applicable Materials: Aluminum, Carbon Steel, Stainless Steel, Titanium and other Exotic Alloys
- A fine grit non-woven belt for final surface blending on a variety of metals and surface s
- The denser, premium high loft nylon fiber bonded to a strong scrim backing allows a thick
- Premium aluminum oxide abrasive grain coating provides up to 20% higher cut rate and 50% b
- Patent pending clean bond resin technology guarantees a smear-free finish and minimizes lo
- Waterproof and washable
- Proprietary coating method distributes a thick layer of grain throughout the belt, extendi
A fine grit non-woven belt for final surface blending on a variety of metals and surface shapes
The denser, premium high loft nylon fiber bonded to a strong scrim backing allows a thick layer of resin bond and grain for long-lasting cutting action and provides the added durability and stiffness these operations require
Premium aluminum oxide abrasive grain coating provides up to 20% higher cut rate and 50% better performance than competitive surface conditioning belts
Patent pending clean bond resin technology guarantees a smear-free finish and minimizes loading on aluminum and other soft metals
Waterproof and washable
Proprietary coating method distributes a thick layer of grain throughout the belt, extending life, grain does not sit on top of fibers