Designed to apply our Brilliant Glaze fast and easy, these pads make machine glazing a breeze!
- Apply Liquid Waxes & Glazes In No Time!
- Fits On 4" 5" & 6" Backing Plates
- Ultra-Fine, Soft Foam
- Makes Applying Adam's Brilliant Glaze Fast and Easy
Each aspect of the pad design has been carefully considered to deliver maximum performance, durability, and results. Featuring a high-grip Velcro backing for maximum adhesion and minimal pad slip, these pads will hold tighter to your machine reducing the chances of an errant pad or mid-polishing delamination in even the most extreme conditions. We listened to feedback and eliminated the neoprene mid-base section. Some users found it difficult to avoid putting rubber transfer marks onto the vehicle surface if the side of the pad was accidentally bumped against a panel, which could cause a scare and be somewhat difficult to remove. The convoluted face generates less heat, and the tapered edge design provides stability that can withstand the rigors of today's large orbit and forced rotation polishing machines. To aid with cooling, plus reduce weight, each pad has a precision cut center hole that can also be used to aid in centering the pad on the backing plate. They now have a lower price too!
Utilizing high PPI, non-abrasive, red foam the Adam's Red Foam Glazing Pad makes applying a coat of Adam's Brilliant Glaze or any other finishing glaze a breeze. The specially selected foam has absolutely no abrasive properties, so it will not damage delicate finishes, but holds its structure to provide a thin, even application, everytime. Simply drop your machine speed to a low setting, apply a small amount of glaze to the red foam face, and effortlessly spread the product over the surfaces to be treated, saving you tons of time with each application!
Extensive testing and development was done to make sure that each aspect of the Adam's 6th Generation foam pad system maximized performance on a variety of polishers, so matter what tool you choose to use rest assured that you'll see maximum performance.