Product Description
Benefits of Film Disc 360L
- Aluminum oxide abrasive offers a fast cut and long life, and performs well on many surfaces
- Durable film backing is tear-resistant and provides a close-tolerance, consistent finish
- Open coat construction helps reduce loading and provides a more aggressive cut
- 3M™ Hookit™ Disc is easy to change and reuse, maximizing utility for the life of the disc
- Suitable for sanding and finishing on composites, gel coats, fiberglass, and other solid surface materials
The 3M™ Hookit™ Film Disc 360L features an aluminum oxide abrasive grain on a film backing for effective fine sanding on plastics, gel coats and polyurethane solid surface substrates. The sturdy film backing gives the durability needed for a high-production environment, and its excellent resistance to edge tearing provides longer life over discs with standard A-weight paper backings.
The film backing gives you a close-tolerance, consistent finish, making it a good choice for applications such as spot repairs, sanding plastic parts, paint feathering on defects, or sanding automotive primer.
To help reduce loading on the disc, 3M™ designed an open coat construction without a load-resistant stearate coating. 3M™ Hookit™ hook-and-loop attachment on the backing enables easy re-use so the disc can be used again and again for the life of the product, and attaches to a low-profile 3M™ Hookit™ Disc Pad (sold separately) on a random orbital sander. Film Disc 360L comes in a range of grades for various applications from fine sanding to finishing.
Aluminum oxide is a popular choice among industrial professionals because of its fast cut-rate and long life. This mineral makes a tough, durable abrasive that self-fractures to expose fresh cutting edges, whereas traditional natural abrasives dull more quickly. Due to its fast cut-rate, hardness, and strength, it is widely used in grinding applications in addition to sanding and finishing applications. Aluminum oxide is suitable for a wide variety of materials in both woodworking and metalworking, including ferrous alloys.