Product Details
6" 6-Hole Hook-and-Loop Back-Up Pad (916SGV48) by Mirka Abrasives®. This backing pad is designed to provide the optimal dust extraction when used with Mirka's net abrasive products, or ?611 series 6" abrasive discs with an 8+6+1 hole pattern. It can also be used with conventional 6 hole grip backed discs or competitive products using an 8+1 hole pattern. This is the replacement pad that is used on the Mirka™DEROS, Mirka™CEROS and PROS sanding machines. The pad is rated for use on sanders with a maximum speed of 13,000 rpm, and uses a standard 5/16"-24 threaded attachment.
Specifications
Diameter: 6" |
Thread Size: 5/16"-24 |
Vacuum Hole Design: 6 Holes |
Density: Soft |
Attachment Type: Hook & Loop |
Features
- It can also be used with conventional 6 hole grip backed discs or competitive products using an 8+1 hole pattern
- This is the replacement pad that is used on the Mirka™DEROS, Mirka™CEROS and PROS sanding machines
- The pad is rated for use on sanders with a maximum speed of 13,000 rpm
- Uses a standard 5/16"‐24 threaded attachment
Designed by a company with long-standing experience and passion for perfect surfaces, this product offers optimized and practical surface finishing solutions. It was elaborately developed with innovative advancements and modern equipment to be unsurpassed in quality and high in value. Backed by Mirka's expertise, it offers good benefits in terms of efficiency and reliability. In addition, this Mirka product is budget-friendly so it won't drain your pocketbook. Made with longevity in mind, it is guaranteed to provide reliable and hassle-free service for the long haul.
Mirka Ltd® is a world leader in surface finishing technology and offers a broad range of groundbreaking sanding solutions for the surface finishing and precision industry. Decades of experience and a strong commitment to product development has seen us become a pioneering specialist in flexible abrasives and revolutionary, patented products which allow customers to enjoy a truly dust-free surface finishing process.