The Scotch-Brite™ Clean and Strip XT Disc is a long lasting surface conditioning disc designed to remove coatings, rust and weld discoloration. It combines extra coarse (XCS) silicon carbide mineral with open web, so the disc can aggressively clean without significantly altering the base material.
Aggressive Cut, Spongy Open Web To engineer our Scotch-Brite™ Clean and Strip XT Disc, we combined extra coarse silicon carbide mineral and non-woven nylon fibers using resin. Silicon carbide is a synthetic mineral that is very sharp and commonly used for low-pressure applications such as paint prep. While it breaks down faster than aluminum oxide, it produces a superior finish. Altogether, this surface conditioning disc delivers a sharp, consistent cut without gouging or marring the workpiece. The resin bond strengthens the disc and breaks down gradually to reveal new fibers and sharp mineral, so you get a consistent cut over the life of the abrasive. Moreover, gaps in the nylon fibers permit air flow, which may reduce the risk of heating or warping the substrate. The sharp-cutting mineral and responsive open web make this abrasive well suited for projects like coating, sealant and rust removal and weld cleaning. Additionally, it is a good paint removing disc. The Many Benefits of Open Web Abrasives Nonwoven technology makes our Scotch-Brite™ industrial abrasives unique. A combination of fiber strands, resin, and abrasive mineral forms a thick, open web. The spring-like nature of the fibers responds to contours and effectively removes unwanted burrs, soils, and contaminants while maintaining the geometry of the workpiece, which in turn reduces rework. Gaps in the web allow swarf to escape, so debris does not clog the mineral. Fibers in the web continually break down with use to reveal fresh mineral for exceptional consistency, superior cut performance, and extremely long service life. From aesthetic finishing to weld blending, deburring, and more, Scotch-Brite™ abrasives work fast and deliver consistent results, part after part.