Application:
- Blending
- Cleaning
- Deburring
- Refining
Features:
- Tough non-woven disc aggressively deburrs and finishes
- Conformable, non-woven disc combined with Roloc backing allows for aggressive cutting
- Open-web construction resists loading and runs cool, allowing for consistent finishes
- Convenient 3M™ Roloc™ attachment system offers quick and easy disc change-out for multi-step finishing processes
The Scotch-Brite™ Roloc™ Surface Conditioning Disc combines durable, non-woven disc with the efficient 3M™ Roloc™ quick-change attachment system for an effective disc that cleans, finishes, blends, and deburrs. This non-woven fiber construction conforms well to help preserve irregular or contoured surfaces and the Roloc™ backing supports the disc for aggressive cutting.
Ideal for Blending, Deubrring and Finishing
The open-web fiber runs cool and resists loading while the abrasives provide a high cut-rate to give you consistent finishing. The 3M™ Roloc™ attachment system offers quick and easy disc change-out, making the Scotch-Brite™ Roloc™ Surface Conditioning Disc ideal for a range of tasks including blending, deburring, and finishing.
3M™ Roloc™ Quick Change Attachment System for Fast and Easy Tool Attachment
Our 3M™ Roloc™ quick change discs are smaller discs that easily and quickly attach onto a Roloc™ disc pad (sold separately) so that you can conveniently change discs from job to job or in multi-step finishing processes. Each disc is also color-coded to identify its grade, making it easy to grab the grade required for different applications.
The Many Benefits of Open Web Abrasives
We developed Scotch-Brite™ surface conditioning products with abrasives incorporated into non-woven nylon or synthetic fibers. Combining abrasives with the fibers creates an abrasive system that delivers consistent results for the life of the product. The open-web material runs cool, reducing the risk of part discoloration and warping. The fibers are load resistant and keep the abrasive minerals cutting at high performance by limiting clogging of the fibers, which also extends the life of the disc.