- Great for aggressive cleaning, blending and finishing on a variety of metals
- Heavy duty, durable web construction enhances the lifespan of the sheet
- Open web design resists loading and keeps sheets running cool
- Black color signifies extra course grade for easy distinction from other sheets
- Sheet can be cut to fit any form or tool
Our Scotch-Brite™ Coating Removal Sheet is designed to aggressively remove paint and rust from metal surfaces and welds. Together with the conformable, non-woven material, extra course silicon carbide abrasives remove coatings while maintaining part geometry.
The non-woven, open web, durable construction is designed to resist loading and greatly increase the life of the disc
Tough Material for Every Job
The black surface of our Scotch-Brite™ Coating Removal Sheet easily distinguishes this material from other blending and finishing options. Long-lasting and tough, the extra course nature of this sheet makes it a great starting point for removing surface contaminants on most metals. The sheet form of this product can be easily cut apart to be used on a variety of hand or power tools.
Silicon Carbide Abrasive
The Silicon carbide contained in the web of this sheet is a popular choice among industrial professionals because of its fast cut-rate and smooth finish. This synthetic mineral is very hard and fractures easily, resulting in freshly exposed sharp edges that cut extra fast and produce a smooth, professional-looking finish. Silicon carbide products are commonly used for low-pressure applications such as cleaning and finishing on wood and metal. While it wears faster than aluminum oxide, it produces a superior finish.
The Scotch-Brite™ Advantage
Our Scotch-Brite™ abrasives are unique surface conditioning products with abrasives incorporated into non-woven fiber matrix. Combining abrasives and non-woven material creates an abrasive system that delivers consistent results for the life of the product. The open-web material runs cool and is load resistant, which keeps the abrasive minerals cutting at high performance by limiting clogging of the fibers.