5-disc design conforms well for irregular surfaces as well as in grates and tracks
Durable Non-woven material and medium grade abrasive provide uniform cut-and-polish results
Conformable and flexible disc gets into hard-to-reach areas
1/4" shaft is suitable for use on power tools, die grinders, or inline sanders
Provides high cut-rate and low heat retention, allowing extended contact with the workpiece
Scotch-Brite™ Cut and Polish Disc D5 is five discs of strong, durable cut and polish web on a 1/4" shank that provides coverage on larger areas, irregular/contoured surfaces, bar grates, louvers, vents, and tracks. The Cut and Polish Disc is engineered to produce satin or high-luster finishes, cleaning, or light deburring on a variety of metals.
Our Scotch-Brite™ Cut and Polish Disc D5 uses a durable, non-woven, open-web construction is load resistant, runs cool, and provides conformability while the aluminum oxide abrasives work to deliver consistent cutting action. The 1/4" shank is suitable for power tools with a 1/4" drive, die grinders, and inline sanders.
We chose aluminum oxide abrasive, which is a popular choice among industrial professionals because of its cut-rate and long life. This mineral is a tough, durable abrasive that self-fractures to expose fresh cutting edges in use, whereas traditional abrasives, such as garnet, quickly wear down with use. Due to its high cut-rate, hardness, strength, and low heat retention, aluminum oxide mineral is widely used in grinding applications in addition to sanding and finishing use. Aluminum oxide is suitable on a wide variety of substrates in both woodworking and metalworking, including ferrous alloys.
Our Scotch-Brite™ industrial abrasives are a unique surface conditioning product with abrasives incorporated into non-woven nylon or other synthetic fibers. Combining abrasives into the fibers creates an abrasive system that delivers consistent results for the life of the product. The open-web material is load resistant and keeps the abrasive minerals cutting at high performance by limiting clogging of the fibers.