ZVIZZER Finish Pad Orange 2 pack

from $32.85

Zvizzer finish is a medium abrasive polisher pad that is ideal for moderate corrections or soft polishes.

Thanks to its intermediate abrasiveness and soft foam, it can also be used as a One Step pad with the right polish such as the Zvizzer Medium Cut One Step or any other medium/one step polish of your choice.

The trapezoidal shape allows you to have an unequalled support and "seating" mainly with orbital polishers which require to have their backing plate and therefore their pad as parallel as possible to the bodywork.

The center hole on the 5in. and 6in. pads limits the deformation of the pad when it heats up and allows for better heat distribution

Size:
Quantity:
Add To Cart

Zvizzer finish is a medium abrasive polisher pad that is ideal for moderate corrections or soft polishes.

Thanks to its intermediate abrasiveness and soft foam, it can also be used as a One Step pad with the right polish such as the Zvizzer Medium Cut One Step or any other medium/one step polish of your choice.

The trapezoidal shape allows you to have an unequalled support and "seating" mainly with orbital polishers which require to have their backing plate and therefore their pad as parallel as possible to the bodywork.

The center hole on the 5in. and 6in. pads limits the deformation of the pad when it heats up and allows for better heat distribution

Zvizzer finish is a medium abrasive polisher pad that is ideal for moderate corrections or soft polishes.

Thanks to its intermediate abrasiveness and soft foam, it can also be used as a One Step pad with the right polish such as the Zvizzer Medium Cut One Step or any other medium/one step polish of your choice.

The trapezoidal shape allows you to have an unequalled support and "seating" mainly with orbital polishers which require to have their backing plate and therefore their pad as parallel as possible to the bodywork.

The center hole on the 5in. and 6in. pads limits the deformation of the pad when it heats up and allows for better heat distribution