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FOAM POLISHING PADS - Norton Company

Part #: 82513

The Norton Company's Model 82513 FOAM POLISHING PADS are engineered for professional technicians and detailers seeking superior finish quality and efficiency. These durable pads are designed to integrate seamlessly into automotive and industrial finishing workflows, providing consistent performance for paint correction, swirl removal, and gloss enhancement tasks. Their professional-grade construction ensures reliable results across a variety of surfaces.

Key Features

  • Professional-Grade Foam Construction: Manufactured with high-quality, resilient foam engineered for extended use in demanding environments, ensuring longevity and consistent performance.
  • Optimized for Finishing: Specifically designed to work effectively with a range of polishing compounds and glazes, facilitating the removal of imperfections and the creation of a deep, uniform shine.
  • Efficient Heat Management: The pad's structure helps dissipate heat generated during polishing, protecting sensitive surfaces and extending pad life.
  • Secure Attachment System: Features a robust hook-and-loop backing for quick, secure attachment and removal from rotary or orbital polishers, minimizing downtime during application changes.
  • Consistent Contact Surface: Engineered to maintain even pressure and contact with work surfaces, preventing marring and ensuring uniform product application.

Applications

These FOAM POLISHING PADS are ideal for a wide array of professional applications, including automotive paint correction, detail finishing, and restoration projects on cars, trucks, and motorcycles. They are also suitable for industrial finishing tasks, marine gel coat restoration, and maintaining highly polished surfaces where a flawless finish is paramount. Designed for use with various polishing machines, they effectively address light to moderate defects, hazing, and oxidation, preparing surfaces for subsequent protection.

Recommended Alternatives

This product was added to our catalog on Friday 14 January, 2000.