Product description
The 3M Cubitron 3 Cut & Grind wheel is a versatile solution that can be used as both a grinding wheel and a cut-off wheel - making it ideal for cutting, grinding, grooving and more. Unlike other abrasive products designed for only one purpose, this disc can be used for multiple purposes, thanks in part to a flat, reinforced inner surface that can shape or grind objects and a thin outer edge that can be used to make perpendicular cuts and grooves. This inclusive design eliminates the need for multiple abrasive tools and can ensure higher production. The 3M Cubitron 3 Cut & Grind disc is powered by the updated 3M Precision Shaped Grain through patented breakthroughs in molecular bonding technology to create sharp, angular structures that continuously break to form sharp points. These clean, sharp points create abrasives that sand faster, heat up less and last much longer than conventional abrasives. 3M Cubitron Performance abrasives are made for professionals who want more from their tools - experience next-generation sanding performance by choosing the 3M Cubitron 3 Cut & Grind disc.
Key features
- MORE FUNCTIONS: is used as a grinding wheel and as a cut-off wheel, making it ideal for cutting, grinding, grooving and more
- HIGHER SPEED: delivers up to 5% higher cutting speed compared to 3M Cubitron II Performance abrasives to reduce the time and pressure required for the job
- STRONG, STRONG, resin-bonded wheel: designed for use as a grinding wheel and cut-off wheel for stainless steel and carbon steel substrates
- IMPROVED FRIENDLY: the new composition of the wheel provides better balance and smoother operation with still best-in-class performance, reducing the need for rework and providing a better finish
- LONG LIFE: lasts longer than leading competitive products
- 3M RENEWED PRECISION-SHAPED GRAIN: uses the redesigned Precision Shaped Grain with molecular bonding technology, designed with sharp, angular structures that continuously break down to form sharp points to ensure even wear, cool operation and optimal mineral breakdown
